Volodymyr Zaitsev

Pós-doutorado

Formação complementar

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Orientou

Produções bibliográficas

• NAZARKOVSKY, MICHAEL ; MIKHRALIIEVA, ALBINA ; ACHETE, CARLOS A. ; ALVES, LUIZ ANASTACIO ; ARAUJO, JOYCE ; ARCHANJO, BRÁULIO S. ; BARROS, JOSÉ JÚNIOR FRANÇA DE ; CARDOSO, LIANA MONTEIRO DA FONSECA ; COUCEIRO, JOSÉ NELSON S. S. ; MARQUES, FERNANDA DAVI ; OLIVEIRA, BRUNO S. ; SOUZA, RAFAEL NASCIMENTO DIAS DE ; TEIXEIRA, AYLA JOSMA ; VASCONCELOS, THIAGO L. ; Zaitsev, Vladimir . Rational design of large flat nitrogen-doped graphene oxide quantum dots with green-luminescence suitable for biomedical applications. RSC Advances , v. 12, p. 14342-14355, 2022.

• MIKHRALIIEVA, A. ; TKACHENKO, OLEG ; SILVA, R. F. ; Vladimir N Zaitsev ; XING, Y. ; PANTELEIMONOV, A. ; STRMME, M. ; BUDNYAK, T. M. . Carbon Nanodots with Solvatochromic Photoluminescence for the Electrochemical Determination of Estrogenic Steroids. Acs Applied Nano Materials , v. 5, p. 10962-10972, 2022.

• DA SILVA, BIANCA A. ; NAZARKOVSKY, MICHAEL ; PADILLA-CHAVARRÍA, HELMUT ISAAC ; MENDIVELSO, EDITH ALEJANDRA C. ; MELLO, HEBER L. DE ; NOGUEIRA, CAUÊ DE S. C. ; CARVALHO, RAFAEL DOS S. ; CREMONA, MARCO ; ZAITSEV, VOLODYMYR ; XING, YUTAO ; BISAGGIO, RODRIGO DA C. ; ALVES, LUIZ A. ; KAI, JIANG . Novel Scintillating Nanoparticles for Potential Application in Photodynamic Cancer Therapy. PHARMACEUTICS , v. 14, p. 2258, 2022.

• ARTIUSHENKO, OLENA ; Zaitsev, Vladimir ; ROJANO, WENDY S. ; FREITAS, GABRIEL A. ; NAZARKOVSKY, MICHAEL ; SAINT?PIERRE, TATIANA D. ; KAI, JIANG . Rationally designed dipicolinate-functionalized silica for highly efficient recovery of rare-earth elements from e-waste. JOURNAL OF HAZARDOUS MATERIALS , v. 408, p. 124976, 2021.

• MIKHRALIIEVA, ALBINA ; GON'ALVES, RODRIGO A. ; Zaitsev, Vladimir . Mesoporous Silica With Covalently Immobilized Anthracene As Adsorbent For SPE Recovery Of PAHs Pollutants From Highly Lipidic Solutions. METHODS AND OBJECTS OF CHEMICAL ANALYSIS , v. 16, p. 5-14, 2021.

• NAZARKOVSKY, MICHAEL ; CZECH, BO'ENA ; 'MUDKA, ALICJA ; BOGATYROV, VIKTOR M. ; ARTIUSHENKO, OLENA ; Zaitsev, Vladimir ; SAINT-PIERRE, TATIANA D. ; ROCHA, RAFAEL C. ; KAI, JIANG ; XING, YUTAO T. ; GONÇALVES, WELLINGTON D.G. ; VEIGA, AMANDA G. ; LUIZA M. ROCCO, MARIA ; HAMZA SAFEER, SYED ; GALABURDA, MARIIA V. ; CARÔZO, VICTOR ; AUCÉLIO, RICARDO Q. ; CARABALLO-VIVAS, RICHARD J. ; ORANSKA, OLENA I. ; DUPONT, JAIRTON . Structural, optical and catalytic properties of ZnO-SiO2 colored powders with the visible light-driven activity. JOURNAL OF PHOTOCHEMISTRY AND PHOTOBIOLOGY A-CHEMISTRY , v. 421, p. 113532, 2021.

• TIMPERLEY, CHRISTOPHER M. FORMAN, JONATHAN E. ABDOLLAHI, MOHAMMAD AL-AMRI, ABDULLAH SAEED BAULIG, AUGUSTIN BENACHOUR, DJAFER BORRETT, VERONICA CARIO, FLERIDA A. CURTY, CHRISTOPHE GEIST, MICHAEL GONZALEZ, DAVID KANE, WILLIAM KOVARIK, ZRINKA MARTÍNEZ-ÁLVAREZ, ROBERTO MOURÃO, NICIA MARIA FUSARO NEFFE, SLAWOMIR RAZA, SYED K. RUBAYLO, VALENTIN SUÁREZ, ALEJANDRA GRACIELA TAKEUCHI, KOJI TANG, CHENG TRIFIRÒ, FERRUCCIO VAN STRATEN, FRANCOIS MAURITZ VANNINEN, PAULA S. VU , et al. ZAITSEV, VOLODYMYR ZAFAR-UZ-ZAMAN, MUHAMMAD ZINA, MONGIA SAÏD HOLEN, STIAN ALWAN, WESAM S. SURI, VIVEK HOTCHKISS, PETER J. GHANEI, MOSTAFA ; Advice on assistance and protection provided by the Scientific Advisory Board of the Organisation for the Prohibition of Chemical Weapons: Part 3. On medical care and treatment of injuries from sulfur mustard. TOXICOLOGY , v. 463, p. 152967, 2021.

• IABLOKOV, V. ; ALEKSEEV, S.A. ; GRYN, S. ; BEZVERKHYY, I. ; Zaitsev, V. ; KOVARIK, L. ; VISART DE BOCARME, T. ; KRUSE, N. . Superior Fischer-Tropsch performance of uniform cobalt nanoparticles deposited into mesoporous SiC. JOURNAL OF CATALYSIS , v. 383, p. 297-303, 2020.

• NAZARKOVSKY, MICHAEL ; DE MELLO, HEBER L. ; BISAGGIO, RODRIGO C. ; ALVES, LUIZ A. ; ZAITSEV, VOLODYMYR . Hybrid suspension of nanodiamonds-nanosilica/titania in cytotoxicity tests on cancer cell lines. INORGANIC CHEMISTRY COMMUNICATIONS , v. 111, p. 107673, 2020.

• ARTIUSHENKO, OLENA ; ÁVILA, ELOAH PEREIRA ; NAZARKOVSKY, MICHAEL ; Zaitsev, Vladimir . Reusable hydroxamate immobilized silica adsorbent for dispersive solid phase extraction and separation of rare earth metal ions. SEPARATION AND PURIFICATION TECHNOLOGY , v. 231, p. 115934, 2020.

• ZAKHARKIV, IGOR ; ZUI, MARYNA ; Zaitsev, Vladimir . Determination of Phthalate Esters in Water and Liquid Pharmaceutical Samples by Dispersive Liquid-Liquid Microextraction (DLLME) and Gas Chromatography with Flame Ionization Detection (GC-FID). ANALYTICAL LETTERS , v. 53, p. 1536-1553, 2020.

• MIKHRALIIEVA, ALBINA ; Zaitsev, Vladimir ; TKACHENKO, OLEG ; NAZARKOVSKY, MICHAEL ; XING, YUTAO ; BENVENUTTI, EDILSON V. . Graphene oxide quantum dots immobilized on mesoporous silica: preparation, characterization and electroanalytical application. RSC Advances , v. 10, p. 31305-31315, 2020.

• ARTIUSHENKO, O. ; KOSTENKO, LIUDMILA ; Vladimir Zaitsev . Influence of competitive eluting agents on REEs recovery from silica gel adsorbent with immobilized aminodiphosphonic acid. JOURNAL OF ENVIRONMENTAL CHEMICAL ENGINEERING , v. 8, p. 103883, 2020.

• MIKHRALIIEVA, ALBINA ; Zaitsev, Vladimir ; AUCÉLIO, RICARDO Q ; DA MOTTA, HENRIQUE B ; NAZARKOVSKY, MICHAEL . Benefit of porous silica nanoreactor in preparation of fluorescence carbon dots from citric acid. Nano Express , v. 1, p. 010011, 2020.

• MIKHRALIIEVA, ALBINA ; Zaitsev, Vladimir ; XING, YUTAO ; COELHO-JÚNIOR, HORÁCIO ; SOMMER, RUBEM LUIS . Excitation-Independent Blue-Emitting Carbon Dots from Mesoporous Aminosilica Nanoreactor for Bioanalytical Application. Acs Applied Nano Materials , v. 3, p. 3652-3664, 2020.

• TIMPERLEY, CHRISTOPHER M. FORMAN, JONATHAN E. ABDOLLAHI, MOHAMMAD AL-AMRI, ABDULLAH SAEED BAULIG, AUGUSTIN BENACHOUR, DJAFER BORRETT, VERONICA CARIO, FLERIDA A. GEIST, MICHAEL GONZALEZ, DAVID KANE, WILLIAM KOVARIK, ZRINKA MARTÍNEZ-ÁLVAREZ, ROBERTO FUSARO MOURÃO, NICIA MARIA NEFFE, SLAWOMIR RAZA, SYED K. RUBAYLO, VALENTIN SUÁREZ, ALEJANDRA GRACIELA TAKEUCHI, KOJI TANG, CHENG TRIFIRÒ, FERRUCCIO VAN STRATEN, FRANCOIS MAURITZ VANNINEN, PAULA S. VU ZAITSEV, VOLODYMYR , et al. ZAFAR-UZ-ZAMAN, MUHAMMAD ZINA, MONGIA SAÏD HOLEN, STIAN ALWAN, WESAM S. SURI, VIVEK ; Advice on assistance and protection from the Scientific Advisory Board of the Organisation for the Prohibition of Chemical Weapons: Part 2. On preventing and treating health effects from acute, prolonged, and repeated nerve agent exposure, and the identification of medical countermeasures able to reduce or eliminate the longer term health effects of nerve agents. TOXICOLOGY , v. 413, p. 13-23, 2019.

• TIMPERLEY, CHRISTOPHER M. FORMAN, JONATHAN E. ABDOLLAHI, MOHAMMAD AL-AMRI, ABDULLAH SAEED BAULIG, AUGUSTIN BENACHOUR, DJAFER BORRETT, VERONICA CARIO, FLERIDA A. GEIST, MICHAEL GONZALEZ, DAVID KANE, WILLIAM KOVARIK, ZRINKA MARTÍNEZ-ÁLVAREZ, ROBERTO MOURÃO, NICIA MARIA FUSARO NEFFE, SLAWOMIR RAZA, SYED K. RUBAYLO, VALENTIN SUÁREZ, ALEJANDRA GRACIELA TAKEUCHI, KOJI TANG, CHENG TRIFIRÒ, FERRUCCIO VAN STRATEN, FRANCOIS MAURITZ VANNINEN, PAULA S. VU ZAITSEV, VOLODYMYR , et al. ZAFAR-UZ-ZAMAN, MUHAMMAD ZINA, MONGIA SAÏD HOLEN, STIAN ; Advice on assistance and protection provided by the Scientific Advisory Board of the Organisation for the Prohibition of Chemical Weapons: Part 1. On medical care and treatment of injuries from nerve agents. TOXICOLOGY , v. 415, p. 56-69, 2019.

• NAZARKOVSKY, MICHAEL ; ALEKSEEV, SERGEI ; HUCZKO, ANDRZEJ ; ZAITSEV, VOLODYMYR ; DUPONT, JAIRTON ; KAI, JIANG ; XING, YUTAO ; SCOFIELD, ARTHUR L. ; CHACÓN, GUSTAVO ; CARREIRA, RENATO S. . Structural and photocatalytic properties of silicon carbide powder and nanowires modified by gold nanoparticles. RESEARCH ON CHEMICAL INTERMEDIATES , v. 45, p. 4081-4100, 2019.

• KOSTENKO, LIUDMYLA ; ARTIUSHENKO, O. ; KOVALCHUK, TATIANA ; TOMASHCHUK, IRYNA ; Vladimir Zaitsev . Preparation and characterization of organofunctionalized bentonite clay bearing aminophosphonic groups in heavy metal uptake. JOURNAL OF ENVIRONMENTAL CHEMICAL ENGINEERING , v. 7, p. 103434, 2019.

• TIMPERLEY, CHRISTOPHER M. FORMAN, JONATHAN E. ABDOLLAHI, MOHAMMAD AL-AMRI, ABDULLAH SAEED ALONSO, ISEL PASCUAL BAULIG, AUGUSTIN BORRETT, VERONICA CARIO, FLERIDA A. CURTY, CHRISTOPHE BERRUTTI, DAVID GONZÁLEZ KOVARIK, ZRINKA MARTÍNEZ-ÁLVAREZ, ROBERTO MIKULAK, ROBERT MOURÃO, NICIA MARIA FUSARO PONNADURAI, RAMASAMI NEFFE, SLAWOMIR RAZA, SYED K. RUBAYLO, VALENTIN TAKEUCHI, KOJI TANG, CHENG TRIFIRÒ, FERRUCCIO MAURITZ VAN STRATEN, FRANCOIS VANNINEN, PAULA S. ZAITSEV, VOLODYMYR WAQAR, FARHAT , et al. ZINA, MONGIA SAÏD BLUM, MARC-MICHAEL GREGG, HUGH FISCHER, ELENA SUN, SIQING YANG, PEI ; Advice on chemical weapons sample stability and storage provided by the Scientific Advisory Board of the Organisation for the Prohibition of Chemical Weapons to increase investigative capabilities worldwide. TALANTA , v. 188, p. 808-832, 2018.

• SYROTCHUK, O.A. ; DIDUKH, I.R. ; Zaitsev, V.N. . Separation of Parabens by the RP HPLC on Cyanopropyl Chromatographic Phases from Different Manufacturers, using a Mobile Phase with High Water Content. METHODS AND OBJECTS OF CHEMICAL ANALYSIS , v. 13, p. 79-84, 2018.

• TIMPERLEY, CHRISTOPHER M. FORMAN, JONATHAN E. ABDOLLAHI, MOHAMMAD AL-AMRI, ABDULLAH SAEED ALONSO, ISEL PASCUAL BAULIG, AUGUSTIN BORRETT, VERONICA CARIO, FLERIDA A. CURTY, CHRISTOPHE GONZALEZ, DAVID KOVARIK, ZRINKA MARTÍNEZ-ÁLVAREZ, ROBERTO MIKULAK, ROBERT FUSARO MOURÃO, NICIA MARIA RAMASAMI, PONNADURAI NEFFE, SLAWOMIR RAZA, SYED K. RUBAYLO, VALENTIN TAKEUCHI, KOJI TANG, CHENG TRIFIRÒ, FERRUCCIO VAN STRATEN, FRANCOIS MAURITZ VANNINEN, PAULA S. ZAITSEV, VOLODYMYR WAQAR, FARHAT , et al. ZINA, MONGIA SAÏD HOLEN, STIAN WEINSTEIN, HOPE A. ; Advice from the Scientific Advisory Board of the Organisation for the Prohibition of Chemical Weapons on isotopically labelled chemicals and stereoisomers in relation to the Chemical Weapons Convention. PURE AND APPLIED CHEMISTRY (ONLINE) , v. 10, p. 1647-1670, 2018.

• FORMAN, JONATHAN E. TIMPERLEY, CHRISTOPHER M. AAS, PL ABDOLLAHI, MOHAMMAD ALONSO, ISEL PASCUAL BAULIG, AUGUSTIN BECKER-ARNOLD, RENATE BORRETT, VERONICA CARIO, FLERIDA A. CURTY, CHRISTOPHE GONZALEZ, DAVID KOVARIK, ZRINKA MARTÍNEZ-ÁLVAREZ, ROBERTO MIKULAK, ROBERT DE SOUZA NOGUERIA, EVANDRO RAMASAMI, PONNADURAI RAZA, SYED K. SAEED, AHMED E. M. TAKEUCHI, KOJI TANG, CHENG TRIFIRÒ, FERRUCCIO VAN STRATEN, FRANCOIS MAURITZ WAQAR, FARHAT ZAITSEV, VOLODYMYR ZINA, MONGIA SAÏD , et al. GROLMUSOVÁ, KATARÍNA VALENTE, GUY PAYVA, MARLENE SUN, SIQING YANG, AMY VAN EERTEN, DARCY ; Innovative technologies for chemical security. PURE AND APPLIED CHEMISTRY (ONLINE) , v. 90, p. 1527-1557, 2018.

• TIMPERLEY, CHRISTOPHER M. FORMAN, JONATHAN E. AS, PAL ABDOLLAHI, MOHAMMAD BENACHOUR, DJAFER AL-AMRI, ABDULLAH SAEED BAULIG, AUGUSTIN BECKER-ARNOLD, RENATE BORRETT, VERONICA CARIO, FLERIDA A. CURTY, CHRISTOPHE GONZALEZ, DAVID GEIST, MICHAEL KANE, WILLIAM KOVARIK, ZRINKA MARTÍNEZ-ÁLVAREZ, ROBERTO MIKULAK, ROBERT FUSARO MOURÃO, NICIA MARIA NEFFE, SLAWOMIR DE SOUZA NOGUEIRA, EVANDRO RAMASAMI, PONNADURAI RAZA, SYED K. RUBAYLO, VALENTIN SAEED, AHMED E. M. TAKEUCHI, KOJI , et al. TANG, CHENG TRIFIRÒ, FERRUCCIO MAURITZ VAN STRATEN, FRANCOIS SUÁREZ, ALEJANDRA G. WAQAR, FARHAT VANNINEN, PAULA S. ZAFAR-UZ-ZAMAN, MOHAMMAD VU ZAITSEV, VOLODYMYR ZINA, MONGIA SAÏD HOLEN, STIAN IZZATI, FAUZIA NURUL ; Advice from the Scientific Advisory Board of the Organisation for the Prohibition of Chemical Weapons on riot control agents in connection to the Chemical Weapons Convention. RSC Advances , v. 8, p. 41731-41739, 2018.

• ARTIUSHENKO, O. ; Vladimir Zaitsev ; SANDOVAL, W. ; SAINTPIERRE, T. D. . Recovery of Lanthanide Ions on Silica Adsorbent with Covalently Immobilized Derivative of 2,6-Pyridinedicarboxylic Acid. METHODS AND OBJECTS OF CHEMICAL ANALYSIS , v. 13, p. 192-199, 2018.

• KOSTENKO, L.S. ; TOMASHCHUK, I.I. ; KOVALCHUK, T.V. ; ZAPOROZHETS, O.A. ; Zaitsev, V.N. . Bentonites With Immobilized Organophosphorus Complexing Ligands As Adsorbents For The Removal Of Toxic Metals From Natural Water. Methods And Objects Of Chemical Analysis , v. 13, p. 35-43, 2018.

• FEDORCHUK, O. I. ; Kobylinska, N. G. ; ZAITSEV, V. N. . Headspace gas chromatographic determination of 1,4-dioxane with adsorption preconcentration on silica modified with -carrageenan. Journal of Analytical Chemistry (Moscow) , v. 72, p. 295-302, 2017.

• CHUBAR, NATALIA ; GILMOUR, ROBERT ; GERDA, VASYL ; MI ; OMASTOVA, MARIA ; HEISTER, KATJA ; MAN, PASCAL ; FRAISSARD, JACQUES ; Zaitsev, Vladimir . Layered double hydroxides as the next generation inorganic anion exchangers: Synthetic methods versus applicability. ADVANCES IN COLLOID AND INTERFACE SCIENCE , v. 245, p. 62-80, 2017.

• GONCHAROVA, L. A. ; Kobylinska, N. G. ; DÍAZ-GARCIA, M. E. ; ZAITSEV, V. N. . Solid-phase luminescence determination of tetracycline in bottled water using chemically modified silica. JOURNAL OF ANALYTICAL CHEMISTRY , v. 72, p. 724-733, 2017.

• KOBYLINSKAYA, N. G. ; KHAINAKOVA, E. A. ; DIAZ-GARCIA, M. E. ; ZAITSEV, V. N. . Nanocomposites based on magnetite modified by chelate groups for a solid-phase concentration of heavy-metal ions from aqueous solutions. Protection of Metals and Physical Chemistry of Surfaces , v. 53, p. 675-684, 2017.

• Vladimir Zaitsev . In memory of Professor Yuri Kholin. METHODS AND OBJECTS OF CHEMICAL ANALYSIS , v. 12, p. 99-102, 2017.

• TURCHENIUK, KOSTIANTYN ; DUMYCH, TETIANA ; BILYY, ROSTYSLAV ; TURCHENIUK, VOLODYMYR ; BOUCKAERT, JULIE ; VOVK, VOLODYMYR ; CHOPYAK, VALENTYNA ; Zaitzev, Vladimir ; MARIOT, PASCAL ; PREVARSKAYA, NATACHA ; BOUKHERROUB, RABAH ; SZUNERITS, SABINE . Plasmonic photothermal cancer therapy with gold nanorods/reduced graphene oxide core/shell nanocomposites. RSC Advances: an international journal to further the chemical sciences , v. 6, p. 1600-1610, 2016.

• KOSTENKO, L.S. ; ANDREEV, '.S. ; FRAISSARD, J. ; ALEKSEEV, S.'. ; Zaitsev, V.N. . Investigation of the local environment of aminodiphosphonic acid covalently immobilized on silica surface by XPS and solid-state 31P NMR. Himia, Fizika ta Tehnologia Poverhni , v. 7, p. 20-30, 2016.

• ZAITSEVA, NATALIYA ; ALEKSEEV, SERGEI ; Zaitsev, Vladimir ; RAKS, VIKTORIA . Solid-Phase Spectrophotometric Analysis of 1-Naphthol Using Silica Functionalized with m-Diazophenylarsonic Acid. Nanoscale Research Letters (Online) , v. 11, p. 149, 2016.

• TURCHENIUK, VOLODYMYR ; TURCHENIUK, KOSTIANTYN ; BOUCKAERT, JULIE ; BARRAS, ALEXANDRE ; DUMYCH, TETIANA ; BILYY, ROSTYSLAV ; Zaitsev, Vladimir ; SIRIWARDENA, ALOYSIUS ; WANG, QI ; BOUKHERROUB, RABAH ; SZUNERITS, SABINE . Affinity of Glycan-Modified Nanodiamonds towards Lectins and Uropathogenic. ChemNanoMat , v. 2, p. 307-314, 2016.

• SYROTCHUK, O. ; DIDUKH, I. ; MARKIN, R. ; Vladimir Zaitsev . SEPARATION OF THE COMPLEX MEDICAL PREPARATIONS USING EMBEDDED POLAR COLUMNS. Visnyk of the Lviv University. Series Chemistry , v. 57, p. 188-195, 2016.

• KORYTKO, DMYTRO ; GRYN, SVITLANA ; ALEKSEEV, SERGEI ; IABLOKOV, VIACHESLAV ; KHAYNAKOVA, OLENA ; Zaitsev, Vladimir ; BEZVERKHYY, IGOR ; KRUSE, NORBERT . Mesoporous silicon carbide via nanocasting of Ludox xerogel. RSC Advances: an international journal to further the chemical sciences , v. 6, p. 108828-108839, 2016.

• FEDORCHUK, O. I. ; Kobylinska, N. G. ; Zaitzev, V.N. . Application of silica modified by molecules of carrageenan for the selective preconcentration and determination of trace amount of 1,4-dioxane. Ukrainian Chemistry Journal , v. 82, p. 73-83, 2016.

• FEDORCHUK, O. I. ; Kobylinska, N. G. ; ZAITSEV, V. N. . 4. Analytical application of silica-modified modified by molecules of carrageenan for for the selective preconcentration and determination of trace amount of 1,4-dioxane. Ukrainskii Khimicheskii Zhurnal , v. 82, p. 73-83, 2016.

• ALVES, ISABEL ; KURYLO, IEVGEN ; COFFINIER, YANNICK ; SIRIWARDENA, ALOYSIUS ; Zaitsev, Vladimir ; HARTÉ, ETIENNE ; BOUKHERROUB, RABAH ; SZUNERITS, SABINE . Plasmon waveguide resonance for sensing glycan-lectin interactions. Analytica Chimica Acta (Print) , v. 871, p. 1205, 2015.

• KHANAL, MANAKAMANA ; TURCHENIUK, VOLODYMYR ; BARRAS, ALEXANDRE ; ROSAY, ELODIE ; BANDE, OMPRAKASH P. ; SIRIWARDENA, ALOYSIUS ; ZAITSEV, VLADIMIR N ; PAN, GUO-HUI ; BOUKHERROUB, RABAH ; SZUNERITS, SABINE . Towards multifunctional clickable diamond nanoparticles. Langmuir , v. 31, p. 3926-3933, 2015.

• TURCHENIUK, KOSTIANTYN ; HAGE, CHARLE-HENRI ; HELIOT, LAURENT ; RAILIAN, SVETLANA ; Zaitsev, Vladimir ; SPADAVECCHIA, JOLANDA ; BOUKHERROUB, RABAH ; SZUNERITS, SABINE . Infrared Photothermal Therapy with Water Soluble Reduced Graphene Oxide: Shape, Size and Reduction Degree Effects. Nano LIFE , v. 05, p. 1540002, 2015.

• ZAKHARKIV, I. B. ; ZUI, M. F. ; ZAITSEV, V. N. . Dispersive liquid-phase microextraction for determination of phthalates in water. J WATER CHEM TECHNO+ , v. 37, p. 78-84, 2015.

• MAZURENKO, I. ; TANANAIKO, O. ; BILOIVAN, O. ; ZHYBAK, M. ; PELYAK, I. ; Zaitsev, V. ; ETIENNE, M. ; WALCARIUS, A. . Amperometric Biosensor for Choline Based on Gold Screen-Printed Electrode Modified with Electrochemically-Deposited Silica Biocomposite. Electroanalysis (New York, N.Y.) , v. 27, p. 1685-1692, 2015.

• KHANAL, MANAKAMANA ; RAKS, VIKTORIA ; ISSA, RAHAF ; CHERNYSHENKO, VOLODYMYR ; BARRAS, ALEXANDRE ; GARCIA FERNANDEZ, JOSE M. ; MIKHALOVSKA, LYUBA I. ; TURCHENIUK, VOLODYMYR ; Zaitsev, Vladimir ; BOUKHERROUB, RABAH ; SIRIWARDENA, ALOYSIUS ; COOPER, IAN R. ; CRAGG, PETER J. ; SZUNERITS, SABINE . Selective Antimicrobial and Antibiofilm Disrupting Properties of Functionalized Diamond Nanoparticles Against Escherichia coli and Staphylococcus aureus. Particle & Particle Systems Characterization , v. 32, p. n/a-n/a, 2015.

• DARABDHARA, GITASHREE ; DAS, MANASH RANJAN ; TURCHENIUK, VOLODYMYR ; TURCHENIUK, KOSTIANTYN ; Zaitzev, Vladimir ; BOUKHERROUB, RABAH ; SZUNERITS, SABINE . Reduced graphene oxide nanosheets decorated with AuPd bimetallic nanoparticles: A multifunctional material for photothermal therapy of cancer cells. J MATER CHEM B , v. 3, p. 8366-8374, 2015.

• TURCHENIUK, KOSTIANTYN ; TURCHENIUK, VOLODYMYR ; HAGE, CHARLES-HENRI ; DUMYCH, TETIANA ; BILYY, ROSTYSLAV ; BOUCKAERT, JULIE ; HELIOT, LAURENT ; Zaitzev, Vladimir ; BOUKHERROUB, RABAH ; SZUNERITS, SABINE . Highly effective photodynamic inactivation of Escherichia Coli pathogens using gold nanorods/SiO2 core-shell nanostructures with embedded verteporfin. Chemical Communications (London. 1996. Print) , v. 51, p. 16365-16368, 2015.

• KOSTENKO, L. ; ALEKSEEV, S. ; Zaitsev, V. . Thermochemical Methods for the Characterization of the Organosilicas with Immobilized Aminophosphonic Acid. METHODS AND OBJECTS OF CHEMICAL ANALYSIS , v. 10, p. 45-52, 2015.

• ZAITSEV, VLADIMIR N ; SYROTCHUK, A. ; DIDUKH, I. R. . A novel HPLC method for simultaneous determination of trimebutine, methylparaben and propylparaben in peroral medicines. Journal of Chemical and Pharmaceutical Research , v. 7, p. 609-615, 2015.

• RAKS, V. A. ; TURCHIN, V. A. ; ZAITSEV, V. N. . Chromatographic determination of pesticide 2,4-D in water bodies. J WATER CHEM TECHNO+ , v. 37, p. 295-298, 2015.

• SYROTCHUK, O. ; DIDUKH, I. ; KURAS, S. ; Zaitsev, V. . HPLC Separation Of Bioactive Components Of Anti-Inflammatory Syrup On Stationary Phases With Embedded Polar Groups. METHODS AND OBJECTS OF CHEMICAL ANALYSIS , v. 10, p. 171-177, 2015.

• ZAKHARKIV, I. ; ZUI, M. ; Zaitsev, V. . Preconcentration Of Aliphatic Aldehydes C1-C5 As O-(2,3,4,5,6- Pentafluorobenzyl)Hydroxylamine Derivatives By Dispersive Liquid-Phase Microextraction. METHODS AND OBJECTS OF CHEMICAL ANALYSIS , v. 10, p. 113-118, 2015.

• Vladimir Zaitsev ; SUBRAMANIAN, PALANIAPPAN ; MOTORINA, ANASTASIIA ; YEAP, WENG SIANG ; HAENEN, KEN ; COFFINIER, YANNICK ; ZAITSEV, VLADIMIR ; NIEDZIOLKA-JONSSON, JOANNA ; BOUKHERROUB, RABAH ; SZUNERITS, SABINE . An impedimetric immunosensor based on diamond nanowires decorated with nickel nanoparticles. Analyst (London. 1877. Print) , v. 139, p. 1726-1731, 2014.

• TURCHENIUK, KOSTIANTYN ; Vladimir Zaitsev ; KHANAL, MANAKAMANA ; MOTORINA, ANASTASIIA ; SUBRAMANIAN, PALANIAPPAN ; BARRAS, ALEXANDRE ; ZAITSEV, VLADIMIR ; KUNCSER, VICTOR ; LECA, AUREL ; MARTORIATI, ALAIN ; CAILLIAU, KATIA ; BODART, JEAN-FRANCOIS ; BOUKHERROUB, RABAH ; SZUNERITS, SABINE . Insulin loaded iron magnetic nanoparticle-graphene oxide composites: synthesis, characterization and application for in vivo delivery of insulin. RSC Advances: an international journal to further the chemical sciences , v. 4, p. 865, 2014.

• MOTORINA, A. ; Vladimir Zaitsev ; TANANAIKO, O. ; KOZYTSKA, I. ; RAKS, V. ; ZAITSEV, V.N. . Hybrid silica-polyelectrolyte films as optical sensing materials for tetracycline antibiotics. Sensors and Actuators. B, Chemical , v. 200, p. 198-205, 2014.

• SUBRAMANIAN, PALANIAPPAN ; Vladimir Zaitsev ; MAZURENKO, I. ; ZAITSEV, V.N. ; COFFINIER, Y. ; BOUKHERROUB, RABAH ; SZUNERITS, S. . Diamond nanowires modified with poly[3-(pyrrolyl)carboxylic acid] for the immobilization of histidine-tagged peptides. Analyst (London. 1877. Print) , v. 139, p. 4343-4349, 2014.

• COFFINIER, YANNICK ; KURYLO, IEVGEN ; DROBECQ, HERVÉ ; SZUNERITS, SABINE ; MELNYK, O ; Zaitsev, Vladimir ; BOUKHERROUB, RABAH . Decoration of silicon nanostructures with copper particles for simultaneous selective capture and mass spectrometry detection of His-tagged model peptide.. The Analyst , p. 5155-5163, 2014.

• ZAITSEV, V. N. ; ZUI, M. F. . Preconcentration by solid-phase microextraction. Journal of Analytical Chemistry (Moscow) , v. 69, p. 715-727, 2014.

• KONOPLITSKA, O. ; ZAITSEVA, G.M. ; Kobylinska, N. G. ; KRONIKOVSKIY, O. ; Vladimir Zaitsev . EFFECT OF SYNTHESIS CONDITIONS ON THE PROTOLITIC AND ADSORPTION PROPERTIES OF SILICA MODIFIED WITH PROPYLTHIOETHYLEAMINE. Visnyk of Taras Shevchenko University. Chemistry , v. 50, p. 61-64-64, 2014.

• MALYTSKA, U. U. ; LEVCHYK, V. M. ; ZUI, M. F. ; ZAITSEV, V. N. . HOLLOW FIBER LIQUID PHASE AND DISPERSIVE MICROEXTRACTION OF PARABENS. METHODS AND OBJECTS OF CHEMICAL ANALYSIS , v. 9, p. 109-117, 2014.

• LEVCHIK, V. M. ; ZUI, M. F. ; ZAITSEV, V. N. . Capillary and dispersive microextraction of diphenylketones. J WATER CHEM TECHNO+ , v. 36, p. 217-224, 2014.

• IVANOVA, O. M. ; RAKS, V. A. ; ZAITSEV, V. N. . Highly-effective liquid chromatographic determination of 2,4,6-trinitrophenol in surface waters after its selective solid phase extraction. J WATER CHEM TECHNO+ , v. 36, p. 273-279, 2014.

• TURCHENIUK, VOLODYMYR ; RAKS, VIKTORIA ; ISSA, RAHAF ; COOPER, IAN R. ; CRAGG, PETER J. ; JIJIE, ROXANA ; DUMITRESCU, NICOLETA ; MIKHALOVSKA, LYUBA I. ; BARRAS, ALEXANDRE ; Zaitsev, Vladimir ; BOUKHERROUB, RABAH ; SZUNERITS, SABINE . Antimicrobial activity of menthol modified nanodiamond particles. Diamond and Related Materials , v. 57, p. 6348, 2014.

• HOSU, IOANA S. ; WANG, QIAN ; VASILESCU, ALINA ; PETEU, SERBAN F. ; RADITOIU, VALENTIN ; RAILIAN, SVETLANA ; Zaitsev, Vladimir ; TURCHENIUK, KOSTIANTYN ; WANG, QI ; LI, MUSEN ; BOUKHERROUB, RABAH ; SZUNERITS, SABINE . Cobalt phthalocyanine tetracarboxylic acid modified reduced graphene oxide: a sensitive matrix for the electrocatalytic detection of peroxynitrite and hydrogen peroxide. RSC Advances: an international journal to further the chemical sciences , v. 5, p. 1474-1484, 2014.

• KHANAL, MANAKAMAN ; LARSONNEUR, FANY ; RAKS, VICTORIIA ; BARRAS, ALEXANDRE ; BAUMANN, JEAN-SEBASTIEN ; MARTIN, FERNANDO ARIEL ; BOUKHERROUB, RABAH ; GHIGO, JEAN-MARC ; ORTIZ MELLET, CARMEN ; Zaitzev, Vladimir ; GARCIA FERNANDEZ, JOSE MANUEL ; BELOIN, CHRISTOPHE ; SIRIVARDENA, ALOYSIUS ; SZUNERITS, SABINE . Inhibition of type 1 fimbriae-mediated Escherichia coli adhesion and biofilm formation by trimeric cluster thiomannosides conjugated to diamond nanoparticles. Nanoscale , v. 7, p. 2325-2335, 2014.

• MAZURENKO, IEVGEN ; Vladimir Zaitsev ; ETIENNE, MATHIEU ; TANANAIKO, OKSANA ; URBANOVA, VERONIKA ; ZAITSEV, VLADIMIR ; WALCARIUS, ALAIN . Electrophoretic deposition of macroporous carbon nanotube assemblies for electrochemical applications. Carbon (New York) , v. 53, p. 302-312, 2013.

• MAZUR, MYKOLA ; Vladimir Zaitsev ; BARRAS, ALEXANDRE ; KUNCSER, VICTOR ; GALATANU, ANDREI ; ZAITZEV, VLADIMIR ; TURCHENIUK, KOSTIANTYN V. ; WOISEL, PATRICE ; LYSKAWA, JOEL ; LAURE, WILLIAM ; SIRIWARDENA, ALOYSIUS ; BOUKHERROUB, RABAH ; SZUNERITS, SABINE . Iron oxide magnetic nanoparticles with versatile surface functions based on dopamine anchors. Nanoscale (Print) , v. 5, p. 2692, 2013.

• ZAITSEVA, N. V. ; Vladimir Zaitsev ; WALCARIUS, A. ; ZAITSEV, V. N. . Characterization of MCM-41 with Immobilized Bi-functional SH/SO3H Layer. Journal of Inorganic and Organometallic Polymers and Materials (Print) , v. 21, p. 123-128, 2013.

• Vladimir Zaitsev ; LEVCHIK, V. ; FOMENKO, T. ; ZUI, M. F. ; ZAITZEV Vladimir . DISPERSIVE MICROEXTRACTION FOR THE GC ANALYSIS OF SOME ENDOCRINE DISRUPTORS. MEDICAL DATA , v. 5, p. 15-18, 2013.

• Vladimir Zaitsev ; SYROTCHUK, A. ; DIDUKH, I. R. ; ZAITSEV, V.N. ; KURAS, S. F. . HPLC Determination of methylparaben and propylparaben in syrup medical supplies various component compositions. Ukrainian Chemistry Journal , v. 79, p. 102-107, 2013.

• RAKS, V. ; Vladimir Zaitsev ; MOTORYKIN, E. ; LEVCHIK, V. ; ZAITZEV Vladimir . Determination of menthol in lollipop 'Travisyl'. Visnyk of Taras Shevchenko University. Chemistry , v. 49, p. 35-38, 2013.

• Vladimir Zaitsev ; KHANAL, MANAKAMANA ; VAUSSELIN, THIBAUT ; BARRAS, ALEXANDRE ; BANDE, OMPRAKASH ; TURCHENIUK, KOSTIANTYN ; BENAZZA, MOHAMMED ; ZAITSEV, VLADIMIR ; TEODORESCU, CRISTIAN MIHAIL ; BOUKHERROUB, RABAH ; SIRIWARDENA, ALOYSIUS ; DUBUISSON, JEAN ; SZUNERITS, SABINE . Phenylboronic-Acid-Modified Nanoparticles: Potential Antiviral Therapeutics. ACS Applied Materials & Interfaces (Print) , v. 5, p. 12488-12498, 2013.

• ZAITSEVA, NATALIYA ; Zaitsev, Vladimir ; WALCARIUS, ALAIN . Chromium(VI) removal via reduction-sorption on bi-functional silica adsorbents. Journal of Hazardous Materials (Print) , v. 250-251, p. 454-461, 2013.

• MAZURENKO, IEVGEN ; Vladimir Zaitsev ; ETIENNE, MATHIEU ; TANANAIKO, OKSANA ; ZAITSEV, VLADIMIR ; WALCARIUS, ALAIN . Electrophoretically deposited carbon nanotubes as a novel support for electrogenerated silica-dehydrogenase bioelectrodes. Electrochimica Acta , v. 83, p. 359-366, 2012.

• ZAITSEVA, N. V. ; Vladimir Zaitsev ; KOBYLINSKAYA, N. G. ; WALCARIUS, A. ; ZAITSEV, V.N. . Speciation of partly oxidized thiol-organosilica surface. Methods and Objects of Chemical Analysis , v. 7, p. 60-67, 2012.

• ZUI, O. ; Vladimir Zaitsev ; ZAITSEV, V.N. ; ALEKSEEV, S. A. ; TRACHEVSKIY, V. . Sorption of Heteropoly Acids on Cellulose Sorbents. CHEMISTRY, PHYSICS AND TECHNOLOGY OF SURFACE , v. 3, p. 66-73, 2012.

• SYROTCHUK, A. ; Vladimir Zaitsev ; DIDUKH, I. R. ; Zaitsev, V. M. . Separation of Trimebutin and Parabens by liquid chromatography on stationary phases with different selectivity.. Zhurnal Khromatohrafichnoho tovarystva , v. 12, p. 4-12, 2012.

• MAZURENKO, IEVGEN ; Vladimir Zaitsev ; ETIENNE, MATHIEU ; OSTERMANN, RAINER ; SMARSLY, BERND M. ; TANANAIKO, OKSANA ; ZAITSEV, VLADIMIR ; WALCARIUS, ALAIN . Controlled Electrochemically-Assisted Deposition of SolGel Biocomposite on Electrospun Platinum Nanofibers. Langmuir , v. 27, p. 7140-7147, 2011.

• KOVALCHUK, T.V. ; Vladimir Zaitsev ; SFIHI, H. ; ZAITSEV, V.N. ; FRAISSARD, J. . Preparation and characterization of catalysts based on oniumsilica-immobilized Keggin acids. Catalysis Today (Print) , v. 169, p. 138-149, 2011.

• KHALAF, V. A. ; Vladimir Zaitsev ; VASIL'CHENKO, O. A. ; TISHCHENKO, S. P. ; SKOPENKO, E. V. ; ZAITSEV, V. N. . Preconcentration of albumin on silica with attached groups of polyoxyethylated isooctyl phenol. Journal of Analytical Chemistry (Moscow) , v. 66, p. 695-700, 2011.

• Vladimir Zaitsev ; ZUI, M. F. ; SHVYDKA, L. V. ; KIFORUK, L. S. ; ALEKSEEV, S. A. ; GERDA, V. I. ; ZAITSEV, V. N. . Sorption concentration of IO3 and I on anion exchangers AV-17 and silicas modified with tertiary ammonium groups. J WATER CHEM TECHNO+ , v. 33, p. 248-254, 2011.

• Vladimir Zaitsev ; SUVOROVA, A.O. ; ALEKSEEV, S. A. ; ZAITSEV, V.N. . Chemical Modification of Porous Silicon Surface by Polyoxyethylene Groups. Chemistry, physics and technology of surfaces , v. 2, p. 53-60, 2011.

• SUKHAN, V. V. ; Vladimir Zaitsev ; TROKHIMENKO, O. M. ; ZAITSEV, V. N. . Direct and indirect atomic absorption methods of determining various forms of iodine in waters and in aqueous solutions. J WATER CHEM TECHNO+ , v. 32, p. 78-89, 2010.

• Vladimir Zaitsev ; SEVERINOVSKAYA, ; ALEKSEEV, S. A. ; GURSKAYA, S. V. ; LAVRINENKO, O. Y. ; ZAITSEV, V.N. . Mass-spectrometric determination of bile components by DIOS method using modified porous silicon. Reports of the National Academy of Sciences of Ukraine , v. 2010, p. 164-168, 2010.

• Vladimir Zaitsev ; GERDA, V. I. ; TELBIZ, G. ; KOBYLINSKAYA, N. G. ; ZAITSEV, V ; MANORYK, P. ; FRAISSARD, J . Enhancement of the Hydrogen Sorption on Mesoporous Carbon by Doping with Palladium Nanoparticles. CHEMISTRY, PHYSICS AND TECHNOLOGY OF SURFACE , v. 1, p. 315-320, 2010.

• Vladimir Zaitsev ; PUZIY, A.M. ; PODDUBNAYA, O.I. ; ZAITSEV, V.N. . A bibasic method for investigation of the mechanism of heavy metal adsorption on heteroheneous adsorbents. Reports of the National Academy of Sciences of Ukraine , v. 2010, p. 119-125, 2010.

• Vladimir Zaitsev ; REVA, T. ; Zaitsev, V. M. ; TROFIMENKO, O. . Adsorption properties of silicas with covalently attached complexing groups towards Zn(II), Hg(II), Fe(III), Cu(II), Cd(II) and Pb(II) ions. Visnyk of Taras Shevchenko University. Chemistry , v. 48, p. 15-19, 2010.

• Vladimir Zaitsev ; KHALAF, V. A. ; ZAITSEV, V ; LEVCHIK, V. ; GALITSKAYA, E. . Determination of caffeine in bavarages by reversed phase high performance liquid chromatofgaphy. Visnyk of Taras Shevchenko University. Chemistry , v. 48, p. 40-46, 2010.

• Vladimir Zaitsev ; ZAITSEV, V ; TROFIMENKO, O. ; PISAREV, E. . Pressing questions of the control of contents iodine in foodstuff, agricultural raw material and biological liquids. Visnyk of Taras Shevchenko University. Chemistry , v. 48, p. 47-49, 2010.

• Vladimir Zaitsev ; ZUI, O. ; ZAITSEV, V.N. ; KRIVOKHIZHA, N. ; MANOYLENKO, O. . On the mechanism of interaction of vanadomolybdophosphoric heteropoly acid with luminol. METHODS AND OBJECTS OF CHEMICAL ANALYSIS , v. 5, p. 95-100, 2010.

• KHALAF, V. A. ; Vladimir Zaitsev ; TURCHIN, V. O. ; GRIN'KO, A. P. ; ZAITSEV, V. N. . Solid-phase extraction preconcentration of 2,4-dichlorophenoxyacetic acid on silica with immobilized polyethoxylated isooctylphenol groups. Journal of Analytical Chemistry (Moscow) , v. 64, p. 110-115, 2009.

• Vladimir Zaitsev ; SHMIGOL, I. V. ; ALEKSEEV, S. A. ; LAVRYNENKO, O. YU. ; VASYLIEVA, N. S. ; ZAITSEV, V. N. ; BARBIER, D. ; POKROVSKY, V. A. . Chemically modified porous silicon for laser desorption/ionization mass spectrometry of ionic dyes. Journal of Mass Spectrometry (Print) , v. 44, p. 1234-1240, 2009.

• KOVALCHUK, T.V. ; Vladimir Zaitsev ; KOCHKIN, JU.N. ; SFIHI, H. ; ZAITSEV, V.N. ; FRAISSARD, J. . Oniumsilica-immobilized-Keggin acids: Acidity and catalytic activity for ethyl tert-butyl ether synthesis and acetic acid esterification with ethanol. Journal of Catalysis (Print) , v. 263, p. 247-257, 2009.

• Vladimir Zaitsev ; ROZHANCHUK, T. ; TANANAIKO, O. ; MAZURENKO, I. ; ETIENNE, M. ; WALCARIUS, A. ; ZAITSEV, V. . Electroanalytical properties of haemoglobin in silica-nanocomposite films electrogenerated on pyrolitic graphite electrode. Journal of Electroanalytical Chemistry , v. 625, p. 33-39, 2009.

• Vladimir Zaitsev ; PISAREVA, N.E. ; ZUI, M. F. ; PISAREV, E. ; Zaitsev, V. M. . Determination of total iodine content in food products using microwave sample preparation by Sandell Kolthoff reaction. Ukrainian Chemistry Journal , v. 75, p. 58-62, 2009.

• Vladimir Zaitsev ; TROKHIMENKO, O. M. ; ZAITSEV, V.N. . Scientometric investigations the published works for last three decades in methods the determination of different forms iodine in objects. METHODS AND OBJECTS OF CHEMICAL ANALYSIS , v. 4, p. 4-10, 2009.

• Vladimir Zaitsev ; ZAITSEV, V.N. ; ZUI, M. F. ; SLIVCHUK, L.A. ; GERDA, V. I. . Sorption of microquantities of bromate- and bromide-ions on AV-17 and octadecyldimethyl--aminopropylsilica gel anionites. METHODS AND OBJECTS OF CHEMICAL ANALYSIS , v. 4, p. 28-33, 2009.

• Vladimir Zaitsev ; KHALAF, V. A. ; TURCHIN, V. O. ; ZAITSEV, V.N. . Determination of 2,4 dichlorophenoxy acetic acid in aqueous environmental samples. METHODS AND OBJECTS OF CHEMICAL ANALYSIS , v. 4, p. 67-72, 2009.

• Vladimir Zaitsev ; KOSTENKO, L. S. ; Zaitsev, V. M. . Silica functionalized with derivative aminophosphonic acid. Ukrainian Chemistry Journal , v. 75, p. 83-90, 2009.

• MÉRY, E. ; ALEKSEEV, S. ; PORTET-KOLTALO, F. ; MORIN, C. ; BARBIER, D. ; Zaitsev, V. ; DESBÈNE, P. L. . Porous silicon based microdevice for reversed phase liquid chromatography. Physica Status Solidi. C, Current Topics in Solid State Physics (Print) , v. 6, p. 1777-1781, 2009.

• ZAITSEV, V. N. ; Vladimir Zaitsev ; KHALAF, V. A. ; ZAITSEVA, G. N. . Organosilica composite for preconcentration of phenolic compounds from aqueous solutions. Analytical and Bioanalytical Chemistry (Print) , v. 391, p. 1335-1342, 2008.

• ZAITSEV, V. N. ; Vladimir Zaitsev ; KOBYLINSKAYA, N. G. ; KOSTENKO, L. S. ; GERDA, V. I. . Conductometric determination of the concentration of acid centers on functionalized materials. Journal of Analytical Chemistry (Moscow) , v. 63, p. 779-786, 2008.

• TROKHIMENKO, O. M. ; Vladimir Zaitsev ; ANAN'EVA, V. V. ; ZAITSEV, V. N. ; GERDA, V. I. ; GOLUB, A. A. . Recovery of iodide ions from geothermal water with silica with grafted alkylammonium groups. Russian Journal of Applied Chemistry , v. 81, p. 403-406, 2008.

• Vladimir Zaitsev ; SHEVCHENKO, NATALIYA ; ZAITSEV, VLADIMIR ; WALCARIUS, ALAIN . Bifunctionalized Mesoporous Silicas for Cr(VI) Reduction and Concomitant Cr(III) Immobilization. Environmental Science & Technology , v. 42, p. 6922-6928, 2008.

• KHOLIN, YURIY ; Vladimir Zaitsev ; ZAITSEV, VLADIMIR . Quantitative physicochemical analysis of equilibria on chemically modified silica surfaces. Pure and Applied Chemistry (Print) , v. 80, p. 1561-1592, 2008.

• Vladimir Zaitsev ; Zaitsev, V. M. ; KHALAF, V. A. ; ZAITSEVA, N. V. . Methods of preconcentration and determination of phenolic compounds (Review). METHODS AND OBJECTS OF CHEMICAL ANALYSIS , v. 3, p. 4-21, 2008.

• Vladimir Zaitsev ; PYLYPIUK, N.M. ; SHEVCHENKO, NATALIYA ; VALKARIUS, A. ; Zaitsev, V. M. . Sorption extraction coupled with atomic absorption spectrometry (SE-AAS) using silica modified with ethylendiamintriacetic acid for determination of Cu(II), Pb(II) and Cd(II) in Kiev artesian water. Kharkov University Bulletin , v. 820, p. 91-97, 2008.

• Vladimir Zaitsev ; Zaitsev, V. M. ; KONOPLITSKA, O.P. ; ZAITSEVA, G. N. . Silica with covalently immobilized groups of propylthioethyleamine as adsorbent for pre,concentration aurum (III) and palladium (II) ions from chlorhydric solutions. METHODS AND OBJECTS OF CHEMICAL ANALYSIS , v. 3, p. 178-184, 2008.

• Vladimir Zaitsev ; REVA, T. ; ZAITSEV, V ; TROKHYMENKO, O. . Adsorption properties of silicas with covalently attached complexing groups towards Zn(), Hg(), Fe(), Cu(), Cd() and Pb() ions. METHODS AND OBJECTS OF CHEMICAL ANALYSIS , v. 3, p. 202-207, 2008.

• Vladimir Zaitsev ; NADZHAFOVA, O.Yu. ; ROZHANCHUK, T. ; ZAITSEV, V. N. ; SHEVCHENKO, V.V. . Characteristics of glassy carbon electrode modified with composite coatings based on oxides of silicon and organic polyelectrolyte. Ukrainian Chemistry Journal , v. 72, p. 59-64, 2008.

• Vladimir Zaitsev ; ZAITSEV, V.N ; TROKHIMENKO, O. M. ; SAMUSEVA, V.E. . ANION-EXCHANGE PROPERTIES OF TRIMETHYLAMMONIA-PROPYL SILICA BROMIDE. IZVESTIA VYSSHYKH UCHEBNYKH ZAVEDENIY KHIMIA I KHIMICHESKAY TEKHNOLOGIA , v. 51, p. 18, 2008.

• KOVALCHUK, T ; Vladimir Zaitsev ; SFIHI, H ; ZAITSEV, V ; FRAISSARD, J . Recyclable solid catalysts for epoxidation of alkenes: Amino- and oniumsilica-immobilized [HPO4{W2O2(-O2)2(O2)2}]2 anion. Journal of Catalysis (Print) , v. 249, p. 1-14, 2007.

• ALEKSEEV, S.A. ; Vladimir Zaitsev ; LYSENKO, V. ; ZAITSEV, V.N. ; BARBIER, D. . Application of Infrared Interferometry for Quantitative Analysis of Chemical Groups Grafted onto the Internal Surface of Porous Silicon Nanostructures. Journal of Physical Chemistry. C , v. 111, p. 15217-15222, 2007.

• Vladimir Zaitsev ; ALEKSEEV, SERGEI A. ; ZAITSEV, VLADIMIR N. ; BOTSOA, JACQUES ; BARBIER, DANIEL . Fourier Transform Infrared Spectroscopy and Temperature-Programmed Desorption Mass Spectrometry Study of Surface Chemistry of Porous 6H-SiC. Chemistry of Materials , v. 19, p. 2189-2194, 2007.

• Vladimir Zaitsev ; MERY, E ; ALEKSEEV, S ; ZAITSEV, V ; BARBIER, D . Covalent grafting of ion-exchanging groups on porous silicon for microsystem applications. Sensors and Actuators. B, Chemical , v. 126, p. 120-125, 2007.

• Vladimir Zaitsev ; SHUPYK, I. ; PIQUEMAL, J.-Y. ; BRIOT, E. ; VAULAY, M.-J. ; CONNAN, C. ; TRUONG, S. ; ZAITSEV, V. ; BOZON-VERDURAZ, F. . The use of low-nuclearity oxoperoxo molybdenum species to achieve high dispersions on zirconia materials. Applied Catalysis. A, General (Print) , v. 325, p. 140-153, 2007.

• CHAPRON, J. ; Vladimir Zaitsev ; ALEKSEEV, S.A. ; LYSENKO, V. ; ZAITSEV, V.N. ; BARBIER, D. . Analysis of interaction between chemical agents and porous Si nanostructures using optical sensing properties of infra-red Rugate filters. Sensors and Actuators. B, Chemical , v. 120, p. 706-711, 2007.

• Vladimir Zaitsev ; BRITSUN, V.N. ; DOROSCHUK, V.A. ; BOGDAN, N.V. ; ZAITSEV, V.N. ; LOZYNSKII, M.O. . Investigation of the acidity of thioamides containing active methylene group. Ukrainian Chemistry Journal , v. 73, p. 40-43, 2007.

• Vladimir Zaitsev ; KONOPLITSKA, O.P. ; Zaitsev, V. M. ; ZAITSEVA, G. N. . SORPTION-ATOMIC-ABSORPTION DETERMINATION OF SILVER IN WATER. METHODS AND OBJECTS OF CHEMICAL ANALYSIS , v. 2, p. 56-62, 2007.

• Vladimir Zaitsev ; ZAITSEVA, G. ; KONOPLITSKA, O. ; ZAITSEV, V . Solidphase-photometry determination of mercury by propylthioethyleamine silica. Visnyk of Taras Shevchenko University. Chemistry , v. 45, p. 24-26, 2007.

• Vladimir Zaitsev ; ZAITSEV, V ; TROKHYMENKO, O. ; SAMUSEVA, V. . Ion-exchange properties of silikagel with immobilised ethylsulphonic acid. Visnyk of Taras Shevchenko University. Chemistry , v. 45, p. 18-20, 2007.

• Vladimir Zaitsev ; LYSENKO, O. ; ZAITSEV, V ; MIRZA, N. . Sorption-desorption-photometric determination of iron in sulphosalycylic acid with use 3-(methylammonium)-prophylsilica. Visnyk of Taras Shevchenko University. Chemistry , v. 45, p. 27-28, 2007.

• Vladimir Zaitsev ; KHRISTENKO, I. V. ; KHOLIN, YU. V. ; MCHEDLOV-PETROSSYAN, N. O. ; REICHARDT, C. ; ZAITSEV, V. N. . Probing of chemically modified silica surfaces by solvatochromic pyridinium N-phenolate betaine indicators. Colloid Journal of the Russian Academy of Sciences , v. 68, p. 511-517, 2006.

• ALEKSEEV, SERGEI A. ; Vladimir Zaitsev ; ZAITSEV, VLADIMIR N. ; FRAISSARD, JACQUES . Organosilicas with Covalently Bonded Groups under Thermochemical Treatment. Chemistry of Materials , v. 18, p. 1981-1987, 2006.

• ZAITSEV, V.N. ; Vladimir Zaitsev ; KOSTENKO, L.S. ; KOBYLINSKAYA, N.G. . Acid-base properties of silica-based ion-exchanger having covalently bonded aminodi(methylphosphonic) acid. Analytica Chimica Acta (Print) , v. 565, p. 157-162, 2006.

• Vladimir Zaitsev ; KOVALCHUK, T. ; SFIHI, H. ; KOSTENKO, L. ; ZAITSEV, V. ; FRAISSARD, J. . Preparation, structure and thermal stability of onium- and amino-functionalized silicas for the use as catalysts supports. Journal of Colloid and Interface Science (Print) , v. 302, p. 214-229, 2006.

• Vladimir Zaitsev ; ZAITSEV, V.N. ; KHALAF, V. A. ; ZAITSEVA, G. N. . Solid phase extractant on the silica bases modified aryldiazonium salt for extraction of phenol. Ukrainian Chemistry Journal , v. 72, p. 105-109, 2006.

• Vladimir Zaitsev ; TROKHIMENKO, O. M. ; ZAITSEV, V.N. ; PASCHENKO, E.A. . Spectrophotometric method for the determination of cerium (IV) using diphenylamino-n-sulfonic acid. Ukrainian Chemistry Journal , v. 72, p. 100-103, 2006.

• Vladimir Zaitsev ; ZAITSEVA, G.M. ; KONOPLITSKA, O.P. ; KHALAF, V. A. ; ZAITSEV, V.N. . Sorpion atomic absorption determination of Cu(II), Cd(II), Zn(II) and Pb(II) from drink water using silica modified by propylthioethyleamine. Ukrainian Chemistry Journal , v. 72, p. 108-113, 2006.

• Vladimir Zaitsev ; TROKHIMENKO, O. M. ; ZAITSEV, V. N. ; PISAREVA, N.E. . Effect of anions of strong mineral acids on the rate of reaction Cendall Kolthoff. Ukrainian Chemistry Journal , v. 72, p. 26-29, 2006.

• Vladimir Zaitsev ; BARABASH, R. M. ; ALEKSEEV, S. A. ; ZAITSEV, V. N. ; BARBIER, D. . Porous silicon modified with vinylsilanes. Ukrainian Chemistry Journal , v. 72, p. 78-84, 2006.

• Vladimir Zaitsev ; TROKHIMENKO, O. M. ; ZAITSEV, V. N. ; PISAREVA, N.E. . Photometric determination of iodate in iodised table salt. Visnyk of Taras Shevchenko University. Chemistry , v. 43, p. 55-56, 2006.

• ZAITSEV, V. N. ; Vladimir Zaitsev ; KOBYLINSKAYA, N. G. . Properties of silicas chemically modified by monodentate amines studied by conductometry. Russian Chemical Bulletin , v. 54, p. 1842-1846, 2005.

• LYSENKO, VLADIMIR ; Vladimir Zaitsev ; BIDAULT, FABRICE ; ALEKSEEV, SERGEI ; ZAITSEV, VLADIMIR ; BARBIER, DANIEL ; TURPIN, CHRISTOPHE ; GEOBALDO, FRANCESCO ; RIVOLO, PAOLA ; GARRONE, EDOARDO . Study of Porous Silicon Nanostructures as Hydrogen Reservoirs. Journal of Physical Chemistry. B , v. 109, p. 19711-19718, 2005.

• KOVALCHUK, T. V. ; Vladimir Zaitsev ; SFIHI, H. ; KORCHEV, A. S. ; KOVALENKO, A. S. ; IL'IN, V. G. ; ZAITSEV, V. N. ; FRAISSARD, J. . Synthesis, Structure, and Acidic Properties of MCM-41 Functionalized with Phosphate and Titanium Phosphate Groups. Journal of Physical Chemistry. B , v. 109, p. 13948-13956, 2005.

• Vladimir Zaitsev ; GERDA, V. I. ; KOBYLINSKAYA, N. G. ; ZAITSEV, V.N. ; IL'IN, V. G. . Synthesis and protolytic properties of the periodically ordered mesoporous organosilicas with MCM-41-type architectures functionalised by alkylamines. Ukrainian Chemistry Journal , v. 71, p. 112-119, 2005.

• Vladimir Zaitsev ; KOVAL'CHUK, T. V. ; KOSTENKO, L. S. ; ZAITSEV, V.N. . Mixed-ligand complexes of La (III) with xylenol orange and silica-grafted complexones. Ukrainian Chemistry Journal , v. 71, p. 68-75, 2005.

• Vladimir Zaitsev ; ZAITSEV, V.N. ; KHALAF, V. A. ; ZAITSEVA, G. N. ; ALEKSEEV, S. A. . Silica modified with polyoxyethylene for phenol preconcentration from aqueous solution. Ukrainian Chemistry Journal , v. 71, p. 59-64, 2005.

• Vladimir Zaitsev ; KHALAF, V. ; ZAITSEV, V ; ALEKSEEV, S ; ZAITSEVA, G. . Solid-phase adsorbent for 2,4,6-trinitrophenol extraction from aqua solution. Visnyk of Taras Shevchenko University. Chemistry , v. 42, p. 27-29, 2005.

• Vladimir Zaitsev ; KOSTENKO, L. ; YANSEN, W. ; ZAITSEV, V . The influence of hydrofobization on the acidic and ion-exchange properties of silica, modified by N-methylaminophosphonic acid. Visnyk of Taras Shevchenko University. Chemistry , v. 42, p. 15-17, 2005.

• Vladimir Zaitsev ; ZAITSEV, V. ; REVA, T. . Spectrofotometric determination of some toxic metal ions in water solution and biological liquids. Visnyk of Taras Shevchenko University. Chemistry , v. 42, p. 17-20, 2005.

• ALEKSEEV, SERGEI A. ; Vladimir Zaitsev ; ZAITSEV, V.N. ; ALEKSEEV, A.N. ; KOCHKIN, YU. N. ; EVANS, J. . Effect of Silanol Groups on the Acidic and Catalytic Properties of Alkyl-sulphoacidic Silicas and SiO2/Nafion Nanocomposites. Adsorption Science & Technology , v. 22, p. 615-625, 2004.

• TROKHIMENKO, O. M. ; Vladimir Zaitsev ; ZAITSEV, V. N. . Kinetic Determination of Iodide by the Sandell-Kolthoff Reaction Using Diphenylamine-4-Sulfonic Acid. Journal of Analytical Chemistry (Moscow) , v. 59, p. 491-494, 2004.

• PUZIY, A.M ; Vladimir Zaitsev ; PODDUBNAYA, O.I ; ZAITSEV, V.N ; KONOPLITSKA, O.P . Modeling of heavy metal ion binding by phosphoric acid activated carbon. Applied Surface Science , v. 221, p. 421-429, 2004.

• Vladimir Zaitsev ; KOCHETOV, G.M. ; TERNOVTSEV, V.E. ; ZAITSEV, V. N. ; ALEKSEEV, S. A. . Sorption-oxidizing method of purification for exhausted technological solutions. J WATER CHEM TECHNO+ , v. 26, p. 444-449, 2004.

• Vladimir Zaitsev ; ZAITSEV, V. N. ; REVA, T.D. ; ZAITSEVA, G. N. ; ALEKSEEV, S. A. ; KALIBABCHUK, V. A. . The 2,6-pyridinedicarboxylic acid covalently bonded to the silochrome surface: Immobilization and sorption-desorption properties. Ukrainian Chemistry Journal , v. 70, p. 74-80, 2004.

• Vladimir Zaitsev ; KOVALENKO, A. S. ; KOVAL'CHUK, T. V. ; ZAITSEV, V. N. ; IL'IN, V. G. . Structural Features of Grafted Phosphates in Mesopores of Si-MCM-41 and Ti,Si-MCM-41 Molecular Sieves. Theoretical and Experimental Chemistry , v. 39, p. 195-200, 2003.

• BARABASH, R. M. ; Vladimir Zaitsev ; ZAITSEV, V. N. ; KOVALCHUK, T. V. ; SFIHI, H. ; FRAISSARD, J. . Low-Temperature Fluorination of Silica by a Nonaqueous Solution of NH F. The Journal of Physical Chemistry. A , v. 107, p. 4497-4505, 2003.

• Vladimir Zaitsev ; ZAITSEV, V. N. . Chemically Modified Complexing Silicas: Predicting Analytical Applications. Journal of Analytical Chemistry (Moscow) , v. 58, p. 612-612, 2003.

• Vladimir Zaitsev ; ZAITSEVA, G. N. ; REVA, T.D. ; ZAITSEV, V. N. ; KALIBABCHUK, V. A. . Synthesis and properties of silicas with covalently fixed groups. Ukrainian Chemistry Journal , v. 67, p. 94-98, 2001.

• Vladimir Zaitsev ; DONS KA, N.D. ; OLIYNYK, V.D. ; ZAITSEV, V. N. . Synthesis and complexing properties of silicas with covalently immobilised N-cyanomethylaminopropyl groups. Ukrainian Chemistry Journal , v. 67, p. 30-36, 2001.

• Vladimir Zaitsev ; ZAITSEVA, G.M. ; STRELKO, V.M. ; Zaitsev, V. M. ; KHOLIN, YU. V. ; KOVAL'CHUK, T. V. . Mechanism of metal adsorbtion by silica with covalently immobilised bis-N,N-(dibutyl)-N -propyl-phosphotriamide. Ukrainian Chemistry Journal , v. 66, p. 92-96, 2000.

• Vladimir Zaitsev ; ALEKSEEV, S. A. ; GENINA, M.A. ; ZAITSEV, V.N. . Thermal decomposition of aminosilicas and their salts with HCl and HNO3. Ukrainian Chemistry Journal , v. 66, p. 61-64, 2000.

• Vladimir Zaitsev ; DONSKAYA, N.D. ; ZAITSEV, V. N. . Interaction of Na2PdCl4 and CuCl2 with covalently immobilized on silica surface ethylenediamine. Russian Journal of Inorganic Chemistry , v. 45, p. 431-436, 2000.

• Vladimir Zaitsev ; DONSKAYA, N.D. ; ZAITSEV, V.N. ; SKOPENKO, V. V. . Palladium complexes with aminosilicas. Russian Journal of Inorganic Chemistry , v. 45, p. 464-468, 2000.

• Vladimir Zaitsev ; SAMOTEIKIN, A.A. ; KHOLIN, YU. V. ; ZAITSEV, V. N. ; SUMSKAYA, N.R. . Polythermal study of kinetics and equilibrium for hydrogen ion sorption on aminosilica. Functional Materials , v. 7, p. 144-149, 2000.

• ZAITSEV, V. N. ; Vladimir Zaitsev ; VASILIK, L. S. ; EVANS, J. ; BROUGH, A. . Synthesis and structure of the grafted layer on silicas chemically modified by aminophosphonic acids. Russian Chemical Bulletin , v. 48, p. 2315-2320, 1999.

• Vladimir Zaitsev ; OLEYNIC, V.D. ; BUDARIN, V. L. ; ZAITSEV, V.N. . Influence of donor properties of silica-immobilized amines on the thermodynamic characteristics of interfacial protolytic reactions. Adsorption Science & Technology , v. 17, p. 835-843, 1999.

• Vladimir Zaitsev ; ZAITSEV, V.N ; OLEYNIC, V.D. . Peculiarities of the protonation reaction in the interfacial layer of silica containing chemically bonded N-methylaminopropyl groups. Adsorption Science & Technology , v. 17, p. 65-71, 1999.

• ZAITSEV, V.N. ; Vladimir Zaitsev ; V. KHOLIN, YU. ; YU GORLOVA, E. ; KHRISTENKO, I.V. . Silica chemically modified with N-benzoyl-N-phenylhydroxylamine in chemisorption of hydrogen and metal ions. Analytica Chimica Acta (Print) , v. 379, p. 11-21, 1999.

• Vladimir Zaitsev ; ZAITSEV, V.N ; VASILIK, L. S. ; EVANS, J. ; BROUGH, A. . Synthesis and nature of the grafted layer on silicas chemically modified by aminophosphonic acids. Russian Chemical Bulletin , v. 48, p. 2340-2345, 1999.

• Vladimir Zaitsev ; ZAITSEV, V.N ; KHOLIN, Y.V. ; KHRISTENKO, I. V. ; SHABAEVA, Y.V. . Complexing of some transition metal ions with alyphatic amines, covalently bonded to silica surface. Kharkov University Bulletin , v. 437, p. 156-159, 1999.

• Vladimir Zaitsev ; ZAITSEV, V.N ; OLEYNIC, V.D. ; SKOPENKO, V. V. . Structure peculiarities in surface layer of copper complexes with covalently bonded to SiO2 aliphatic amines. Ukrainian Chemistry Journal , v. 65, p. 81-84, 1999.

• Vladimir Zaitsev ; KOVAL'CHUK, T. V. ; LEVIN, U. ; ZAITSEV, V.N ; ENGEVALD, V. . Chromatographic properties of high density octadecyl phases that bonded on high pure silica gel. Journal of Analytical Chemistry (Moscow) , v. 26, p. 115-121, 1999.

• ALEKSEEV, A. N. ; Vladimir Zaitsev ; ZAITSEV, V. N. ; ALEKSEEV, S. A. ; PECHENY, A. B. . Study of cooperative effects of silanols on modified silica by dielectric relaxation method. Macromolecular Symposia , v. 136, p. 9-12, 1998.

• Vladimir Zaitsev ; ZAITSEV, V. N. ; OLEYNIK, V. D. ; BUDARIN, V. L. . Evaluation of bonded layer disorder from thermodynamic behavior of methylaminopropyl groups immobilized on sio2. Macromolecular Symposia , v. 136, p. 99-102, 1998.

• Vladimir Zaitsev ; ZAITSEV, V.N ; VOLKOV, A.N. ; ZUB, V.Y. ; ZAITSEVA, G. N. . Investigation of the interaction of covalently bonded to silica diethylenetriamine copper complexes with different nature chemicals by EPR. Ukrainian Chemistry Journal , v. 64, p. 12-17, 1998.

• Vladimir Zaitsev ; SUMSKAYA, N.R. ; KHOLIN, Y.V. ; ZAITSEV, V.N. . Column frontal high performance liquid chromatography of copper (II) chloride on silica, modified aminodiphosphonic acid. Russian Journal of Physical Chemistry , v. 71, p. 905-910, 1997.

• Vladimir Zaitsev ; BUDARIN, V. L. ; PECHENYI, A. B. ; ZAITSEV, V.N . Doble-electrical layer influences on acid-base properties of chemically modified silicas. Functional matterials , v. 4, p. 566-571, 1997.

• Vladimir Zaitsev ; KHOLIN, YU. V. ; MERNY, S. ; ZAITSEV, V.N . The numerical analysis of energetically non-identity of bonded aminopropyl groups with difference distribution. Russian Journal of Physical Chemistry , v. 70, p. 1101-1107, 1996.

• Vladimir Zaitsev ; KALIBABCHUK, V. A. ; ZAITSEV, V.N ; VOITSEHOVSKAYA, O.M. ; PODGORNY, A.V. . Oximes of dialdehydcellulose and their chelating activity tovard some metals. Russian Journal of Coordination Chemistry , v. 22, p. 404-405, 1996.

• Vladimir Zaitsev ; PECHENYI, A. B. ; BUDARIN, V. L. ; ZAITSEV, V. N. ; KALIBABCHUK, V. A. . Kinetics of the reaction of cobalt(II) phthalocyanine complexes with functionalized organosilicas. Theoretical and Experimental Chemistry , v. 31, p. 249-252, 1995.

• Vladimir Zaitsev ; PECHENYI, A. B. ; BUDARIN, V. L. ; ZAITSEV, V.N ; KALIBABCHUK, V. A. . Kinetic pecularities of interaction of Co(II) phthalocyanine complexes with functionalised organosilicas. Theoretical and Experimental Chemistry , v. 31, p. 303-307, 1995.

• Vladimir Zaitsev ; KALIBABCHUK, V. A. ; ZAITSEV, V.N . Polymer materials for medical purposes. Functional materials , v. 2, p. 15-22, 1995.

• Vladimir Zaitsev ; ZAITSEV, V.N ; VASILIK, L. S. ; EVANS, J. ; BROUGH, A. . The silicas chemically modified with amino-di(methylenephosphonoc) and ethylenediamine-di(methylenephosphonic) acids. Functional materials , v. 2, p. 33-39, 1995.

• Vladimir Zaitsev ; ZAITSEV, V.N ; OLEYNIC, V.D. ; SKOPENKO, V. V. ; ANTOSCHUK, V.V. . Copper(II) complexes on silica surfaces with covalently bonded methylamino and ethylenediamino silanes. Functional materials , v. 2, p. 69-74, 1995.

• Vladimir Zaitsev ; KHOLIN, YU. V. ; ZAITSEV, V.N ; ZAITSEVA, G. N. ; VASSILIK, L. . Complexing in interfacial layers of silicas with immobilised aminophosphonic and aminodiphosphonic acids. Russian Journal of Inorganic Chemistry , v. 40, p. 261-269, 1995.

• Vladimir Zaitsev ; ZAITSEV, V.N ; SKOPENKO, V. V. ; KHOLIN, YU. V. ; DONSKAYA, N.D. ; MERNY, S. . Amino silica with lattice type distribution of bonded groups. Russian Journal of General Chemistry , v. 65, p. 529-537, 1995.

• Vladimir Zaitsev ; KHOLIN, YU. V. ; ZAITSEV, V.N ; MERNY, S.A. ; VARZATSKY, O.A. . Complexing of Cu2+ ions with aliphatic amines, covalently bonded to silica surface. Russian Journal of Inorganic Chemistry , v. 40, p. 1325-1330, 1995.

• Vladimir Zaitsev ; PECHENYI, A. B. ; KALIBABCHUK, V. A. ; ZAITSEV, V.N . Interaction of some porphyrine cobalt (II) complexes with aminosilicas. Functional materials , v. 1, p. 119-123, 1994.

• Vladimir Zaitsev ; ZAITSEV, V.N ; KHOLIN, YU. V. ; KONIAEV, D.S. . Complexation of Co(ii), Ni(ii), Cu(ii) with 2,2'-dipyridyl and 1,10-phenanthroline fixed on aerosil surface. Russian Journal of Inorganic Chemistry , v. 38, p. 1023-1028, 1993.

• Vladimir Zaitsev ; SKOPENKO, V. V. ; KHOLIN, Y.V. ; ZAITSEV, V.N ; MERNY, S.A. ; KONIAEV, D.S. . Relevance between models that describe adsorption on chemically modified silicas. 1. The model of fixed polydentate centres and chemical reactions. Russian Journal of Physical Chemistry , v. 67, p. 728-733, 1993.

• Vladimir Zaitsev ; KHOLIN, YU. V. ; ZAITSEV, V.N ; MERNY, S.A. ; DONSKAYA, N.D. ; CHISTIAKOVA, L.N. . Acid-base properties of silicas chemically modified by aminogroups. Ukrainian Chemistry Journal , v. 59, p. 910-917, 1993.

• Vladimir Zaitsev ; ZAITSEV, V.N. ; KADENKO, I. ; STRELKO, V.V. ; SKOPENKO, E.V. . Immobilization of large low-charge anions for the preparation of selective caesium adsorbents. Analytica Chimica Acta (Print) , v. 256, p. 323-329, 1992.

• Vladimir Zaitsev ; DONSKAYA, N.D. ; ZAITSEV, V.N . Complex formation of CuCl2 on surface of aminopropyl aerosils with different concentration of bonded groups. Ukrainian Chemistry Journal , v. 58, p. 972-976, 1992.

• Vladimir Zaitsev ; ZAITSEV, V.N. ; COLOMIETS, L.I. ; ELSKAYA, A.V. ; SKOPENKO, V.V. ; EVANS, J. . Covalent immobilization of immunoglobulin on a wafer surface for immunosensor bioselective matrix construction. Analytica Chimica Acta (Print) , v. 252, p. 1-6, 1991.

• Vladimir Zaitsev ; LISHKO, T.P. ; GLUSHCHENKO, L.V. ; KHOLIN, Y.V. ; ZAITSEV, V.N ; BUGAEVSKII, A.A. ; DONSKAYA, N.D. . Complexing processes on silica chemically modified by amines with various dentate ability. Russian Journal of Physical Chemistry B , v. 65, p. 2996-3004, 1991.

• Vladimir Zaitsev ; KHOLIN, YU. V. ; ZAITSEV, V.N ; DONSKAYA, N.D. . Verification of the model for characterization of complexing process of CoCl2 with aminopropylsilica in dimethylphormamid. Russian Journal of Inorganic Chemistry , v. 35, p. 891-894, 1990.

• Vladimir Zaitsev ; ZAITSEV, V. N. ; TROFIMCHUK, A. K. ; SKOPENKO, V. V. . Extraction of PdCl2 and Na2PdCl4 with ?-(8-Methylquinoline)-Aminopropyl-aerosil. Theoretical and Experimental Chemistry , v. 19, p. 583-587, 1984.

• KHALAF, V. ; Zaitsev, V.N. . Sampling and sample preparation in chromatography. 1. ed. Kiev: Kievskii Universitet, 2015. 234p .

• Vladimir Zaitsev ; LYSENKO, O. ; KOVALCHUK, T ; Zaitsev, V. M. . Fundamental of gas chromatography. Textbook Part.1. 1. ed. Kiev: Kiev University publisher, 2014. v. 2. 92p .

• Vladimir Zaitsev ; LYSENKO, O. ; KOVALCHUK, T ; Zaitsev, V. M. . Fundamental of gas chromatography. Textbook Part.2. 1. ed. , 2014. v. 2. 72p .

• ALEMASOVA, A.S. ; Vladimir Zaitsev ; Zaitsev, V. M. ; ENALIEVA, L.Y. ; SCHEPINA, N.D. ; GOZHDZINSKY, S. M. . Analytical chemistry. Textbook.. 1. ed. Donetsk (Ukraine): Kkowlege, 2010. v. 1. 417p .

• Vladimir Zaitsev ; Zaitsev, V. M. . Chemically modified silicas. 1. ed. Kiev: Kiev University publisher, 2005. v. 1. 170p .

• Vladimir Zaitsev ; ZAITSEV, V.N. . Babko Analoliy Kirilovich 100 anniversary.. 1. ed. Kiev: Vladimir, 2005. v. 1. 88p .

• Vladimir Zaitsev ; KHOLIN, YU. V. ; ZAITSEV, V.N. . Metal complexes immobilized on chemically-modified silicas. 1. ed. Kharkiv (Ukraine): Folio, 1997. v. 1. 134p .

• Vladimir Zaitsev ; ZAITSEV, V.N. . Complexing silicas: synthesis, structure of the grafted layer and surface chemistry. 1. ed. Kharkiv (Ukraine): Folio, 1997. v. 1. 239p .

• Vladimir N Zaitsev . D0 carbon nanoparticles: Carbon nanodots and graphene oxide quantum dots. In: Sanjay Mavinkere Rangappa; Jyotishkumar Parameswaranpillai; Yashas Gowda T.G.; Suchart Siengchin; M. Ozgur Seydibeyoglu. (Org.). Nanoparticle-Based Polymer Composites. 1ed.Cambridge: Elsevier, 2022, v. , p. 1-552.

• Vladimir Zaitsev ; Telbiz, G. M. ; GERDA, V. I. ; Kobylinska, N. G. ; Zaitsev, V. M. ; FRAISSARD, J. . Studies of Hydrogen Sorption on Mesoporous Carbon Composite Modified with Adsorbed Palladium. NATO Science for Peace and Security Series C: Environmental Security. 1ed.: Springer Netherlands, 2011, v. , p. 499-508.

• Vladimir Zaitsev ; Shmigol, I.V. ; ALEKSEEV, S.A. ; Lavrynenko, O.Yu. ; ZAITSEV, V.N. ; BARBIER, D. ; Pokrovskiy, V.A. . Surface-Assisted Laser Desorption Ionization of Low Molecular Organic Substances on Oxidized Porous Silicon. Nanomaterials and Supramolecular Structures. 1ed.: Springer Netherlands, 2009, v. , p. 45-50.

• BERGBREITER, D.E. ; Zaitsev, V.N. ; Gorlova, E. Yu ; KHODAKOVSKY, A. . COMBINATORIAL SYNTHESIS OF SILICA-SUPPORTED METAL BINDING AGENTS AND SENSORS. In: Royal Society of Chemistry. (Org.). Fundamental and Applied Aspects of Chemically Modified Surfaces. 1ed.: Elsevier, 1999, v. , p. 353-360.

• ZAITSEV, V. N. ; Vladimir Zaitsev ; VASSILIK, L. . New class of silica-bonded ion-exchangers. New class of silica-bonded ion-exchangers. 1ed.England: Royal Society of Chemistry, 1999, v. , p. 361-368.

• Vladimir Zaitsev ; Zaitsev Vladimir N. . It is Ordered to neutralize. ZN,UA, p. 3 - 12, 31 jan. 2014.

• Vladimir Zaitsev ; Zaitsev Vladimir N. . Analytical chemistry under preasure. Weekly newspaper 2000, Kiev (Ukraine), p. 33, 17 ago. 2012.

• NAZARKOVSKY, MICHAEL ; Vladimir N Zaitsev . TRANSFORMATIONS OF THE POROSITY PROFILES IN MAGNETITE-BENTONITE HYBRIDS. In: II International Scientific Conference CURRENT PROBLEMS OF CHEMISTRY, MATERIALS SCIENCE AND ECOLOGY, 2022, Lutsk. Proceedings. Lutsk: Volyn National University, 2022. v. 1. p. 1-196.

• ARTIUSHENKO, O. ; ZAITSEV, VOLODYMYR . Nanopontos de carbono incorporados em sílica gel funcionalizada para recuperação seletiva dos elementos terras raras. In: 45ª Reunião Anual da Sociedade Brasileira de Química, 2022, Maceio. Anais de 45ª Reunião Anual da Sociedade Brasileira de Química. Maceio: Fernando de Carvalho da Silva, 2022. v. 1. p. 1-844.

• NAZARKOVSKY, M. ; MIKHRALIIEVA, A. ; ZAITSEV, VLADIMIR N ; VASCONCELOS, T. L. ; BARROS, J. J. F. . Luminescent nitrogen-doped graphene quantum dots for biomedical applications. In: 45ª Reunião Anual da SBQ, 2022, Maceio. Anais da 45ª Reunião Anual da SBQ. Niteroi: Fernando de Carvalho da Silva, 2022. p. 1-844.

• MIKHRALIIEVA, A. ; Zaitsev, Vladimir . Silica-based carbogenic nanodots as adsorbent for adsorption polyaromatic pollutants. In: Brazil MRS Meeting & International Union of Materials Research Societies ? International Conference on Electronic Materials (IUMRS-ICEM 2021), 2021, Virtual. The 2021 International Conference on Electronic Materials (2021 IUMRS-ICEM) and the XIX Brazilian Materials Research Society Meeting (XIX B-MRS) was held online as a Virtual Conference from August 30th until September 3rd 2021, 2021. v. 1. p. www.sbpmat.org.

• Zaitsev, Vladimir . THE NEW GRAPHENE FAMILY NANOMATERIALS: PREPARATION AND PROPERTIES. In: Brazil MRS Meeting & International Union of Materials Research Societies ? International Conference on Electronic Materials (IUMRS-ICEM 2021), 2021, Virtual. The 2021 International Conference on Electronic Materials (2021 IUMRS-ICEM) and the XIX Brazilian Materials Research Society Meeting (XIX B-MRS) was held online as a Virtual Conference from August 30th until September 3rd 2021, 2021. v. 1. p. www.sbpmat.org.

• Zaitsev, Vladimir . Plasmonic Photothermal Cancer Therapy with Reduced Graphene Oxide Nanocomposites. In: 10th World Congress of Chemistry & Biology 2019, 2019, Barcelona. Book of abstracts, 2019.

• TURCHENIUK, K. ; SIRIWARDENA, A. ; Zaitsev, Vladimir ; BOUKHERROUB, R. ; SZUNERITS, S. . Hybrid Nanoparticles for Better Medicine. In: 10ème Conférence Internationale de Chimie Toulouse-Kiev, 2019, Toulouse. Book of abstracts, 2019.

• MIKHRALIIEVA, A. ; MOTTA, H. B. ; QUEIROZ, R. A. ; Zaitsev, Vladimir . EXCITATION-INDEPENDENT BLUE-EMITTING CARBON DOTS FROM SILICA-BASED NANOREACTOR. In: Elsevier 9th International Colloids Conference, 2019, Barcelona. Book of Abstracts, 2019.

• Zaitsev, Vladimir ; ARTIUSHENKO, O. ; KOSTENKO, L. S. ; TOMASHCHUK, I. ; KOBYLINSKA, N. . Reusable organo-mineral nanostructured materials with immobilized chelating ligands for selective water purification from toxic and radioactive metals. In: Groundwater Remediation using Nano / biotechnology with a focus on the Contaminated Resources in Brazil (GRUN), 2019, Campinas. Book of abstracts, 2019.

• MIKHRALIIEVA, A. ; MOTTA, H. B. ; Zaitzev, Vladimir . Blue-emitting carbon dots from aminosilica nanoreactor. In: XVII Brazilian Materials Research Society meeting, 2019, Natal. XVII B-MRS Proceedings, 2019. p. 1495-1495.

• Vladimir N Zaitsev ; MIKHRALIIEVA, A. ; TURCHENIUK, K. ; TURCHENIUK, V. . Carbon-based and Hybrid nanomaterials for Better Medicine. In: XVII Brazilian Materials Research Society meeting, 2019, Natal. XVII B-MRS Proceedings, 2019. p. 18-18.

• MIKHRALIIEVA, A. ; Zaitzev, Vladimir . Graphene@silica for removal of polyaromatic compounds. In: XVI Brazilian MRS meeting, 2017, Gramado. Proceedings of XVI Brazilian MRS meeting. Gramado, 2017. p. 978856327335-1569.

• ARTIUSHENKO, O. ; Zaitzev, Vladimir . Smart organo-mineral materials for selective solid phase extraction of biologically active polyphenolic compounds. In: XVI Brazilian MRS meeting, 2017, Gramado. Proceedings of XVI Brazilian MRS meeting. Gramado, 2017. p. 1573-1573.

• Zaitzev, Vladimir ; ALEKSEEV, S. ; KOVALCHUK, T. . Porous silicon for development of miniature analytical devises. In: XVI Brazilian MRS meeting, 2017, Gramado. Proceedings of XVI Brazilian MRS meeting. Gramado, 2017. p. 161-161.

• Zaitzev, Vladimir ; TURCHENIUK, K. ; SIRIWARDENA, A. ; BARRAS, A. ; BOUKHERROUB, R. ; SZUNERITS, S. . Hybrid Nanoparticles for Better Medicine. In: 46th World Chemistry Congress IUPAC, 2017, Sao Paulo. Anais IUPAC 2017, 2017.

• RAKS, V. ; TURCHIN, V. A. ; Zaitzev, V. . OC-01 SOLID-PHASE EXTRACTION METHODS FOR THE DETERMINATION OF PESTICIDES, NITROAROMATIC AND PHENOLIC COMPOUNDS IN WATER USING HPLC. In: XVI Latin-American Congress on Chromatography (XVICOLACRO), 2016, Lisbon. XVI Latin-American Congress on Chromatography & National meeting on chromatography. Book of abstract. Lisboa: J.M.F Nogueira, 2016. v. 1. p. 53-54.

• Vladimir Zaitsev . Chemical and explosives terrorism: Domestic and international implications. In: 251st American Chemical Society National Meeting & Exposition, 2016, San Diego. 251st American Chemical Society National Meeting & Exposition, 2016. v. 1. p. CHAL 30.

• TURCHENIUK, KOSTIANTYN ; TURCHENIUK, VOLODYMYR ; BOUCKAERT, JULIE ; DUMYCH, TETIANA ; BARRAS, ALEXANDRE ; BILYY, ROSTYSLAV ; Zaitzev, V.N. . Affinity of Glycan-Modified Nanodiamonds towards Lectins and Escherichia coli. In: 2016 MRS Spring Meeting & Exhibit, 2016, Phoenix. Program and Exhibit guide, 2016. p. 287.

• TURCHENIUK, V. ; SIRIVARDENA, ALOYSIUS ; Zaitsev Vladimir ; SZUNERITS, S. . TOWARD MULTIFUNCTIONAL ?CLICKABLE? NANOPARTICLES'. In: The 8th Toulouse-Kiev Conference, 2015, Toulouse. 8th international Chemistry Conference Toulouse-Kiev. Toulouse, 2015. v. 1. p. 29.

• GERDA, V. I. ; Mazieres Marie ; Zaitsev Vladimir ; BALTAS, M. . Luminescent properties of cyanine dyes on the surface of silica modified with quarternary ammonium groups of different nature. In: The 8th Toulouse-Kiev Conference, 2015. 8th International Chemistry Conference Toulouse-Kiev (ICTK-8). Toulouse, 2015. v. 1. p. 102.

• GERDA, V. I. ; Mazieres Marie ; Zaitsev Vladimir ; BALTAS, M. . Spectrophotometric determination of moisture content in ethylene glycol using a cyanine dye. In: The 8th Toulouse-Kiev Conference, 2015, Toulouse. 8th International Chemistry Conference Toulouse-Kiev. Toulouse, 2015. v. 1. p. 155.

• ZAITSEV, VLADIMIR N ; MAZURENKO, I. ; ETIENNE, M. ; TANANAIKO, O. ; WALCARIUS, A. . ELECTROPHORETIC DEPOSITION OF MACROPOROUS CARBON NANOTUBE ASSEMBLIES FOR ELECTROCHEMICAL APPLICATIONS. In: 12nd International Bhurban Conference on Applied Sciences & Technology, 2015, Islamabad. Book of abstracts 12nd International Bhurban Conference on Applied Sciences & Technology. Islamabad: Dr. Sajid Raza Chaudhry, 2015. v. 1. p. 18.

• Zaitsev, V. ; ALVES, I. ; KURYLO, IEVGEN ; COFFINIER, YANNICK ; SIRIVARDENA, ALOYSIUS ; SZUNERITS, SABINE . PLASMON WAVEGUIDE RESONANCE FOR SENSING GLYCAN?LECTIN INTERACTIONS. In: The European Conference on Analytical Chemistry, 2015, Bordeaux. EuroAnalysis 2015 Book of Abstracts, 2015. v. 1. p. 114-114.

• RAKS, VIKTORIA ; TURCHIN, V. O. ; Zaitsev, Vladimir . SOLID-PHASE EXTRACTION METHODS FOR THE DETERMINATION OF PESTICIDES, NITROAROMATIC AND PHENOLIC COMPOUNDS IN WATER USING HPLC. In: XVI Latin-American Congress on Chromatography (XVICOLACRO), 2015, Lisbon. Books of Abstracts of XVI Latin-American Congress on Chromatography. Lisbon, 2016. p. 215.

• ZAKHARKIV, I. B. ; ZUI, M. F. ; Zaitsev, V. . Dispersive microextraction for pre-concentration of phthalates. In: Kyiv Conference on Analytical Chemistry: Modern Trends 2014, 2014, Kiev. Book of abstracts. Kiev: Kiev University, 2014. p. 79.

• LEVCHIK, V. M. ; ZUI, M. F. ; Zaitsev, V. . dispersive microextraction of parabens. In: Kyiv Conference on Analytical Chemistry: Modern Trends 2014, 2014. Book of abstracts. Kiev: Kiev University. p. 89.

• N.I., Romanovska ; Zaitzev, Vladimir ; BALTAS, M. ; MAZERIZ, M. ; GERDA, V. I. . EFFECT OF WATER ON SPECTRAL PROPERTIES cyanine dyes in organic solvents of different polarity. In: Kyiv Conference on Analytical Chemistry: Modern Trends 2014, 2014, Kiev. Book of abstracts. Kiev: Kiev University, 2014. p. 95.

• GERDA, V. I. ; N.I., Romanovska ; Kobylinska, N. G. ; Zaitsev, Vladimir . Peculiarities Cr (VI) pre-concentration on inorganic and organ of mineral adsorbents with an anion exchange properties of various nature. In: Kyiv Conference on Analytical Chemistry: Modern Trends 2014, 2014, Kiev. Book of Abstracts. Kiev: Kiev Universty, 2014. p. 98-99.

• Kobylinska, N. G. ; DIAZ-GARCIA, M. E. ; Zaitsev Vladimir . Silica-coated magnetic nanoparticles for the spectrofluorimetric determination of tetracycline in milk and food products. In: European conference in analytical chemistry XVII, 2013, Warsaw. XVII euroANALYSIS. Analytical chemistry for human well-being and sustainable development. Warsaw: BEL Studio Sp. z o.o., 2013. v. 1. p. 737-738.

• Zaitsev, Vladimir . CARBON NANOMATERIALS AND THEIR APPLICATIONS IN MEDICINE. 2021. (Apresentação de Trabalho/Outra).

• Zaitsev . Inovações ajudam na luta contra o vírus. 2021. (Apresentação de Trabalho/Outra).

• MOTTA, D. ; Zaitsev ; ACHETE, C. A. . Pesquisadores da Coppe/UFRJ, Inmetro e PUC-Rio desenvolvem tecido antiviral para máscara. 2020. (Apresentação de Trabalho/Outra).

• Zaitsev . Inovações científicas e tecnológicas ajudam na luta contra o vírus. 2020. (Apresentação de Trabalho/Outra).

• GRAMATGES, A. P. ; Zaitsev Vladimir . A Água Como Uma molécula Tão simples e abundante PODE Ser um Mais Importante para a Vida. 2015. (Apresentação de Trabalho/Conferência ou palestra).

Outras produções

Projetos de pesquisa

• 2021 - Atual

  DESENVOLVIMENTO DE MATERIAIS ADSORVENTES PARA RECUPERAÇÃO SELETIVA DE CONTAMINANTES DE HIDROCARBONETOS AROMÁTICOS POLICÍCLICOS E REMEDIAÇÃO DE ÁREAS CONTAMINADAS POR ÓLEO, Descrição: Edital FAPERJ PROGRAMA DE APOIO A ?REDES DE MONITORAMENTO DE DERRAMAMENTO DE ÓLEOS EM AMBIENTES MARINHOS: PREVENÇÃO E CONTROLE? 06/2020 Os hidrocarbonetos policíclicos aromáticos (PAHs) são poluentes orgânicos persistentes. Devido à sua natureza lipofílica, os PAHs podem contaminar facilmente óleos, mamíferos e organismos marinhos. Os adsorventes hidrofóbicos são amplamente usados para descontaminar fontes de água com PAHs. Infelizmente, tais adsorventes são inúteis para a purificação de óleos, combustíveis e outras soluções lipídicas, uma vez que os adsorventes não têm seletividade para PAHs e, portanto, serão saturados por componentes da matriz hidrofóbica. Os adsorventes de natureza hidrofílica com alta afinidade para os PAHs são necessários para a recuperação seletiva desses poluentes da matriz hidrofóbica. Recentemente, demonstramos que nanomateriais de carbono são capazes de se ligar firmemente aos PAHs, devido às interações intermoleculares pi-pi. Esse efeito pode levar a um novo tipo de adsorvente seletivo de PAHs, que é capaz de descontaminar soluções lipídicas. O adsorvente também pode ser usado para simplificar os procedimentos analíticos, para a determinação de PAHs em objetos contendo lipídios, como óleos e organismos marinhos. Um conjunto de materiais híbridos organo-minerais será obtido por imobilização covalente de nanomateriais de carbono em carreadores inorgânicos. Dois tipos principais de nanomateriais de carbono serão investigados: nanopartículas de carbono (CNDs) e pontos quânticos de óxido de grafeno (GOQDs). As partículas serão imobilizadas em suportes como sílica gel, bentonita (BNT), diatomita (DTM) e carreadores magnéticos. Adsorventes magnéticos e à base de SiO2 serão explorados para análise química de PAHs em soluções lipídicas. Adsorventes à base de BNT e DTM para purificação industrial de óleos, combustíveis e outras soluções lipídicas também serão estudadas. É importante que tanto a bentonita quanto a diatomita são minerais não tóxicos, bem como é nanopartículas de carbono, que podem ser obtidos a partir de resíduos alimentares.. , Situação: Em andamento; Natureza: Pesquisa. , Alunos envolvidos: Mestrado acadêmico: (2) Doutorado: (2) . , Integrantes: Volodymyr Zaitsev - Coordenador / Mariella Alzamora Camarena - Integrante / Natasha Midori Suguihiro - Integrante / Stéphane Serge Yves Jérôme Soriano - Integrante / Viviane de Oliveira Freitas Lione - Integrante / Yutao Xing - Integrante / SOMMER, RUBEM LUIS - Integrante / AUCÉLIO, RICARDO Q - Integrante / Célia Machado Ronconi - Integrante / Emerson Schwingel Ribeiro - Integrante / Fernando Henrique Cincotto - Integrante / Tommaso Del Rosso - Integrante / Dalber Ruben Sanchez Candela - Integrante / Fabio Barboza Passos - Integrante., Financiador(es): FAPERJ - Auxílio financeiro.

• 2021 - Atual

  Adsorventes naturais beseados em argilas modificadas para o tratamento das amostras lipídicas em recuperação dos hidrocarbonetos aromáticos policíclicos, Descrição: Bolsa de Pós-Doutorado Sênior - PDS 2021 Os hidrocarbonetos policíclicos aromáticos (PAHs) são poluentes orgânicos persistentes. Devido à sua natureza lipofílica, os PAHs podem contaminar facilmente óleos, mamíferos e organismos marinhos. Os adsorventes hidrofóbicos são amplamente usados para descontaminar fontes de água com PAHs. Infelizmente, tais adsorventes são inúteis para a purificação de óleos, combustíveis e outras soluções lipídicas, uma vez que os adsorventes não têm seletividade para PAHs e, portanto, serão saturados por componentes da matriz hidrofóbica. Os adsorventes de natureza hidrofílica com alta afinidade para os PAHs são necessários para a recuperação seletiva desses poluentes da matriz hidrofóbica. Recentemente, demonstramos que nanomateriais de carbono são capazes de se ligar firmemente aos PAHs, devido às interações extramoleculares p-p. Esse efeito pode levar a um novo tipo de adsorvente seletivo de PAHs, que é capaz de descontaminar soluções lipídicas. O adsorvente também pode ser usado para simplificar os procedimentos analíticos, para a determinação de PAHs em objetos contendo lipídios, como óleos e organismos marinhos. Um conjunto de materiais híbridos organo-minerais será obtido por imobilização covalente de nanomateriais de carbono em carreadores inorgânicos ? óxido de silício (sílica) e argilas. Um tipo de nanomateriais de carbono será investigado: pontos quânticos de óxido de grafeno (GOQDs). As nanopartículas serão imobilizadas em suportes como silica (SiO2), bentonita (BNT) ou otras argilas e estudadas em extração seletiva de PAHs de soluções lipídicas para análise química dos contaminantes, purificação de óleos, combustíveis e outras soluções lipídicas. É importante que tanto a bentonita quanto a sílica gel são minerais não tóxicos disponíveis am abundância no Brasil, bem como é nanopartículas de carbono, que podem ser obtidos a partir de resíduos orgânicos.. , Situação: Em andamento; Natureza: Pesquisa. , Alunos envolvidos: Doutorado: (1) . , Integrantes: Volodymyr Zaitsev - Coordenador / NAZARKOVSKY, MICHAEL - Integrante., Financiador(es): Pontifícia Universidade Católica do Rio de Janeiro - Bolsa.

• 2021 - Atual

  Desenvolvimento de novos eletrodos compositos utilizando derivados de grafeno para aumento da eficiência de baterias convencionais, Descrição: Apesar de limitações, as baterias de chumbo-ácido ainda representam, em termos de energia total, mais de 70% do mercado [1]. Trata-se de uma tecnologia muito econômica, confiável e as baterias podem ser facilmente recicladas [2]. Existem três partes principais dessas baterias que podem ainda ser melhoradas com o uso de carbono elementar: massa ativa, coletores de corrente e placa negativa. A adição de carbono nos eletrodos melhora o desempenho eletroquímico, aumentando os ciclos de carga e descarga, eficiência de carga e energia específica [3]. O projeto propõe o uso de grafeno e derivados obtidos a partir de grafite (rota convencional) e de bagaço de cana ou outra biomassa (rota alternativa) para modificação dos componentes da bateria de chumbo-ácido. Mais especificamente, o objetivo principal do projeto é o desenvolvimento de eletrodos de alto desempenho para baterias chumbo-ácido tendo uma abordagem diferenciada ao utilizar matérias a base de carbono para construir compósitos carbono/chumbo. Os objetivos específicos seriam o desenvolvimento de metodologias de alto desempenho e baixo custo de obtenção de diferentes formas de carbono (carbono poroso, óxido de grafeno e óxido de grafeno dopados), desenvolvimento dos compósitos chumbo/carbono e montagem de eletrodos para testes e caracterização mecânica e estrutural dos eletrodos construídos. A originalidade do projeto está no uso de biomassa como fonte de carbono para a síntese de grafeno e no desenvolvimento de eletrodos compósitos carbono/chumbo. O apoio da empresa de baterias Moura, líder do mercado, será fundamental nas etapas de caracterização mecânica e estrutural dos eletrodos construídos.. , Situação: Em andamento; Natureza: Pesquisa. , Alunos envolvidos: Graduação: (2) / Mestrado acadêmico: (1) / Doutorado: (1) . , Integrantes: Volodymyr Zaitsev - Coordenador / Tatiana Dillenburg Saint Pierre - Integrante / Luiz Eduardo Pizarro Borges - Integrante / Eduardo Ariel Ponzio - Integrante / Juan Manuel Pardal - Integrante / Katia Regina de Souza - Integrante / Rita de Cássia Colman Simões - Integrante / Sérgio Souto Maior Tavares - Integrante., Financiador(es): FAPERJ - Auxílio financeiro.

• 2021 - Atual

  Partículas carbonáceas nanométricas e materiais híbridos para aplicação em química e biomédica, Descrição: Pontos de carbono (CDs) é um termo geral usado atualmente para uma nova classe de objetos carbonáceos em nanoescala. CDs demonstram fotoluminescência não observada para fulerenos e nanodiamantes conhecidos anteriormente, podem ser obtidos a partir de vários precursores contendo carbono em escala de grama e podem produzir suspensões estáveis em água. Ao contrário de outros manométricos objetos fotoluminescentes, como silício poroso e pontos quânticos semicondutores, os CDs são livres de metal e, portanto, são muito mais ecologicamente corretos e biocompatíveis. A pesquisa em CDs desenvolveu-se rapidamente e nos últimos três anos demonstra alta atividade com mais de 3.000 publicações/ano. Recentemente, os CNDs são estudados armazenamento de energia, química analítica, proteção de ambiente, segurança alimentar. Devido à sua natureza de baixa toxidade e biocompatibilidade, os CDs têm grande potencial em biotecnologia e nanomedicina, para liberação de drogas, teranóstica e terapia fotodinâmica. Recentemente desenvolvemos novos procedimento para a síntese ?bottom-up? de objetos carbonáceos em nanoescala, com geometria esférica e tamanho de cerca de 5 nm, comumente chamados de nanopontos de carbono, CNDs (Albina Mikhraliieva, Zaitsev, Xing, et al. 2020), e outras nanopartículas com tamanho de partícula muito maior (10-100 nm) com planos basais de grafeno e tendência a achatar, comumente chamados de pontos quânticos de óxido de grafeno (GOQDs). No processo de obtenção de GOODs, provavelmente recebemos um nanomaterial 2D novo e anteriormente desconhecido, que chamamos de óxido de grafeno Kagome (KGO). Conseguimos separar o KGO das nanopartículas. No projeto atual, gostaria de estudar essas novas nanopartículas e aplicá-las para a preparação de materiais híbridos. O projeto irá estudar a atividade antiviral e antibacteriana do CNDs GOQDs. A atividade dos nanocompósitos de CNDs e GOQDs com metais será estudada para terapia foto/sono dinâmica de células cancerígenas. GOQDs e KGO seráo estudadam como veículos na entrega de medicamentos. Materiais híbridos serão obtidos por imobilização covalente de nanopartículas na superfície de suportes inorgânicos como sílica gel mesoporosa e bentonita. Os nanocompósitos serão estudados como adsorventes para recuperação de íons metálicos (ETRs em particular) de lixo eletrônico. Para tanto, pontos de carbono incorporados em sílica gel serão funcionalizados com grupos funcionais seletivos aos ETRs, a saber: ácido 2,6-piridinodicarboxílico e ácido aminodifosfônico. Recentemente, demonstramos que nanomateriais de carbono são capazes de se ligar firmemente aos PAHs, devido às interações intermoleculares - (Albina Mikhraliieva, Gonalves, and Zaitsev 2021). Assim, queremos estudar a capacidade de novos híbridos de remover PAHs de objetos ambientais e, particularmente para a extração de compostos poliaromáticos de soluções com alto teor lipídico.. , Situação: Em andamento; Natureza: Pesquisa. , Alunos envolvidos: Graduação: (2) / Mestrado acadêmico: (1) / Doutorado: (2) . , Integrantes: Volodymyr Zaitsev - Coordenador., Financiador(es): Conselho Nacional de Desenvolvimento Científico e Tecnológico - Bolsa.

• 2021 - Atual

  Estudo de tratamento de EPI com nanopartículas de carbono funcionalizadas para uma maior proteção, Descrição: Bolsa de Iniciação Científica - 2021 O uso de equipamentos de proteção individual (EPI) é um importante aliado, e sua escolha dependerá das condições de exposição (contatos com a face, mãos ou corpo), tipo (fluidos, gotículas ou aerossóis), duração e quantidade de fluido corpora. Nesse sentido, faz-se imprescindível o direcionamento de um alerta para os diversos têxteis presentes nos serviços de saúde. Pandemia de COVID-19 mostrou que não temos segurança universal contra víroses. No momento as máscaras são nossos protetores principais, mas não todo tecido pode nos segurar com eficiência boa. Alem disso, o aumento significativo no uso máscaras descartáveis tanto pelo profissional de saúde como pela população, associado ao lixo gerado e o tempo para esse material ser decomposto na natureza, faz-se necessária a busca de novos materiais para produção de EPIs. Este projeto se propõe a desenvolver tecnologia para modificar materias para EPIs com nanopartículas de carbono promissores contra microorganismos. Faz-se necessário salientar que o recobrimento proposto nesse projeto não se restringe apenas às máscaras. Outros EPIs também estão em grande demanda pelas Unidades de Saúde, e podem ser substituídos com o emprego desta técnica.. , Situação: Em andamento; Natureza: Pesquisa. , Alunos envolvidos: Graduação: (1) . , Integrantes: Volodymyr Zaitsev - Coordenador / RENAN GRANGEIRO DOS SANTOS - Integrante., Financiador(es): Pontifícia Universidade Católica do Rio de Janeiro - Bolsa.

• 2021 - Atual

  Materiais nanoestruturados híbridos e suas aplicações em análise química, proteção de ambiente e biomedicina, Descrição: Edital FAPERJ, Cientista do Nosso Estado - 2020 Os materiais híbridos nanoestruturados são obtidos principalmente pela modificação da superfície do suporte com compostos moleculares. Recentemente tem havido tentativas de combinar suportes mesoporosos com diferentes nanopartículas. Esses nanocompósitos permitem alcançar novos avanços em nanotecnologia. Entre vários objetos em nanoescala nanomateriais de carbono, como fulerenos e nanodiamantes (0D), nanotubos de carbono, CNT (1D), grafeno, G e óxido de grafeno, GO (2D) têm atraído atenção especial como adsorventes, sensores. Recentemente, uma nova classe de 0D materiais chamada pontos quânticos de carbono (carbon dots, CDs) foi descoberta. Ao contrário de outros nanomateriais conhecidos CDs apresentam inúmeras vantagens, como alta fotoestabilidade, baixa toxicidade e baixo custo. O principal objetivo da pesquisa é desenvolver novos materiais híbridos baseados em suportes mesoporosos inorgânicos e nanopartículas de carbono (CNDs e GOQDs) imobilizadas que capaz: recuperar PAHs de matriz com alto teor de componentes lipofílicos, como óleos e combustíveis (a); adsorver matais pesados, como ETRs (b); aumentar a eficácia do Equipamentos de Proteção Individual (EPIs) devido a uma melhor atividade contraviral (c).. , Situação: Em andamento; Natureza: Pesquisa. , Alunos envolvidos: Graduação: (2) / Mestrado acadêmico: (1) / Doutorado: (1) . , Integrantes: Volodymyr Zaitsev - Coordenador., Financiador(es): FAPERJ - Bolsa., Número de produções C, T & A: 1

• 2021 - Atual

  Métodos de cromatografia com detector espectrométrico de massas e fluorescência para determinar o teor de hidrocarbonetos aromáticos policíclicos em amostras lipídicas, Descrição: Os hidrocarbonetos policíclicos aromáticos (PAHs) são poluentes orgânicos persistentes. Devido à sua natureza lipofílica, os PAHs podem contaminar facilmente óleos, mamíferos e organismos marinhos. Os adsorventes hidrofóbicos são amplamente usados para descontaminar fontes de água com PAHs. Infelizmente, tais adsorventes são inúteis para a purificação de óleos, combustíveis e outras soluções lipídicas, uma vez que os adsorventes não têm seletividade para PAHs e, portanto, serão saturados por componentes da matriz hidrofóbica. Os adsorventes de natureza hidrofílica com alta afinidade para os PAHs são necessários para a recuperação seletiva desses poluentes da matriz hidrofóbica. Recentemente, demonstramos que pontos quânticos de óxido de grafeno (GOQDs) são capazes de se ligar firmemente aos PAHs, devido às interações extramoleculares pi-pi. Esse efeito pode levar a um novo tipo de adsorvente seletivo de PAHs, que é capaz de descontaminar soluções lipídicas. Propriedades de adsorventes à base GOQDs como adsorventes serão estudadas com métodos de cromatografia GC-MS e HPLC-FL para determinar o teor de hidrocarbonetos aromáticos policíclicos em amostras lipídicas.. , Situação: Em andamento; Natureza: Pesquisa. , Alunos envolvidos: / Mestrado profissional: (1) / Doutorado: (1) . , Integrantes: Volodymyr Zaitsev - Coordenador / Nathália Carvalho - Integrante.

• 2021 - Atual

  Nanopartículas de carbono dopados com boro para terapia antiviral, Descrição: Em geral, duas abordagens podem ser distinguidas na aplicação de nanomateriais contra as infecções virais. Uma abordagem considera um mecanismo externo que pode bloquear ou inativar os vírus. Esta forma envolve o uso de propriedades citotóxicas de nanopartículas, como a prata. A outra abordagem está relacionada à interação entre a superfície dos vírus e o nanomaterial. No primeiro caso, as nanopartículas podem não apresentar propriedades tóxicas. Portanto, a segunda maneira é muito mais aceitável. Novas nanopartículas de carbono estão sendo investigadas como materiais antivirais promissores de baixa citotoxicidade. O mecanismo de ação antiviral das nanopartículas de carbono é baseado na ligação do envelope viral. De acordo com nossos resultados, nanodiamantes modificados com ácido borônico (B-NDs) demonstram atividade antiviral contra o vírus da Hepatite-C (HCV), devido à inibição por ligação a espículas de glicoproteínas presentes na superfície do envelope do vírus (Khanal et al. 2013). Recentemente desenvolvemos o novo procedimento para a síntese de nanopontos de carbono (CNDs) com tamanho de 3-6 nm e pontos quânticos de óxido de grafeno (GOQDs) com tamanho 50-100 nm. As nanopartículas especificadas podem ser obtidas de materiais baratos e disponíveis no Brasil. Com base na literatura e em nossos estudos realizados e publicados, esperamos que a dopagem das nanopartículas mencionadas com derivados de ácido bórico aumente significativamente sua interação com as espículas de glicoproteínas de SARS-CoV-2 que pode levar à inativação do vírus. No projeto atual pretendemos utilizar a experiência já adquirida desenvolvendo e padronizando uma metodologia para obtenção de nanopartículas carbonáceas dopadas com derivados do ácido bórico (B-CNDs, B-GOQDs e B-NDs) para inibir a propagação do vírus que causa a COVID-19. Além disso, a baixa citotoxicidade das nanopartículas propostas permite sua aplicação para tratamento de equipamentos de proteção individual (EPI) e coletiva, incluindo máscaras faciais, a fim de aumentar suas propriedades protetoras.. , Situação: Em andamento; Natureza: Pesquisa. , Alunos envolvidos: / Mestrado profissional: (1) / Doutorado: (1) . , Integrantes: Volodymyr Zaitsev - Coordenador / Pierre Mothé Esteves - Integrante / Luiz Anastácio Alves - Integrante / Carlos Alberto Achete - Integrante / Braulio Soares Archanjo - Integrante / Viviane de Oliveira Freitas Lione - Integrante / Emerson Schwingel Ribeiro - Integrante / Jones Limberger - Integrante / José Júnior França de Barros - Integrante / José Nelson dos Santos Silva Couceiro - Integrante., Financiador(es): Fundação Carlos Chagas Filho de Amparo à Pesquisa do Estado do RJ - Auxílio financeiro.

• 2021 - Atual

  Boron-doped carbon nanoparticles for antiviral therapy, Descrição: Carbon nanoparticles are being investigated as promising antiviral materials with low cytotoxicity. According to our results, boron-modified nanodiamonds (B-NDs) demonstrate antiviral activity. We developed the procedure for the synthesis of boron-doped carbon nanodots (BCNDs) and graphene oxide (BGQDs). We expect that the doping of nanoparticles significantly increases their interaction with glycoproteins. We need to confirm the composition of BCNDs and BGQQs (C,N,O). , Situação: Em andamento; Natureza: Pesquisa. , Alunos envolvidos: Graduação: (1) / Doutorado: (2) . , Integrantes: Volodymyr Zaitsev - Coordenador / Albina Mikhraliieva - Integrante., Financiador(es): Centro Nacional de Pesquisa em Energia e Materiais - Cooperação.

• 2020 - Atual

  Tecidos Hidrofóbicos e Ativos para substituição do TNT Hospitalar, Descrição: Edital: AÇÃO EMERGENCIAL COVID-19 - Chamada B - Apoio a Projetos já concedidos em Editais da FAPERJ. , Situação: Em andamento; Natureza: Pesquisa. , Alunos envolvidos: Graduação: (2) / Mestrado acadêmico: (1) / Doutorado: (2) . , Integrantes: Volodymyr Zaitsev - Integrante / Albina Mikhraliieva - Integrante / Carlos Alberto Achete - Coordenador / Braulio Soares Archanjo - Integrante / Joyce Rodrigues de Araujo - Integrante / Maíra do Prado - Integrante / Renata Antoun Simão - Integrante / GISELE BIRMAN TONIETTO - Integrante / Juliana do Nascimento Lunz - Integrante / Kelly Leite Dos Santos Castro Assis - Integrante., Financiador(es): Fundação Carlos Chagas Filho de Amparo à Pesquisa do Estado do RJ - Auxílio financeiro.

• 2019 - Atual

  Nanodiamantes com pontos quânticos de carbono imobilizados, como novos nanomateriais para theranostics, Descrição: Edital CNPQ Universal 2018 Entre as aplicações mais promissoras de nanopartículas estão a medicina e a biotecnologia. Nessas áreas, os nanomateriais têm sido usados para administração demedicamentos, terapia fotodinâmica e fototérmica, para teranóstica. Até hoje, os nanomateriais mais utilizados para aplicação biomédica são: metais (Au, Ag, Pt), óxidos metálicos (Si02, Ti02) e materiais à base de carbono (nanotubos de carbono, fulerenos, grafeno). No entanto, a aplicação biomédica de nanomateriais conhecidos é bastante limitada devido à eventual citotoxicidade e baixa estabilidade coloidal. Portanto, a importância do desenvolvimento de novas nanopaftículas é geralmente reconhecida. Entre os novos candidatos, as estruturas baseadas em carbono atraem muita atenção devido à sua biocompatibilidade, alta área de superfície e estabilidade. Entre eles, anodiamonds (NDs) e quantum pontos de carbono (CQDs) são reconhecidos como uns novos candidatos a aplicações nanobiotecnológicas. A ideia da pesquisa é combinar propriedades atrativas de NDs para biotecnologia e medicina (baixa citotoxicidade, fácil metabolização, capacidade de pene r nas células e sair da célula sem danificar a membrana) com propriedades atrativas de CQDs para diagnóstico médico (forte e estável fotoluminescência). A combinação destes dois nanomateriais pode também dar um efeito sinérgico da estabilização dos objetos híbridos em solução fisiológica (devido à forte carboxilação da superfície dos CQDs que carregam negativamente as partículas em meios básicos). A imobilização dos CQDs na superfície de NDs também pode aumentar a área de perficie das partículas e sua capacidade de maior funcionalização química. Esta pesquisa está focada na elaboração e investigação de novos nanomateriais híbridos baseados em NDs, com CQDs covalentemente imobilizados (NDs@CQ). Esta pesquisa está focada na elaboração e investigação de novos narnnvteriais hfridos baseadcs com covalalterrente inoblizados NDs@CQ anterapia fotodinânica câncer.. , Situação: Em andamento; Natureza: Pesquisa. , Alunos envolvidos: Graduação: (1) / Mestrado acadêmico: (1) / Doutorado: (2) . , Integrantes: Volodymyr Zaitsev - Coordenador / Mykhailo Nazarkovskyi - Integrante / Albina Mikhraliieva - Integrante., Financiador(es): Conselho Nacional de Desenvolvimento Científico e Tecnológico - Auxílio financeiro., Número de produções C, T & A: 4

• 2019 - Atual

  Compósitos com nanodiamantes e quantum pontos de carbono como novos candidatos para tratamento fotodinâmico e psicodinâmico invasivo de tumores e portadores de entrega de drogas, Descrição: Edital CNPq PQ-2018 Nanopartículas têm sido utilizados em vastas aplicações, desde o armazenamento de energia até a biotecnologia. No entanto, sua aplicação biotecnológica é bastante limitada. Devido à eventual citotoxicidade e baixa estabilidade coloidal, a importância do desenvolvimento de novas nanopartículas é geralmente reconhecida. Entre estas partículas, as estruturas baseadas em carbono chamam a atenção de diversos grupos de pesquisas devido à biocompatibilidade, alta área de superfície e estabilidade. Entre eles, os nanodiamantes (NDs) e pontos quânticos de carbono (ou óxido de grafeno) (GOQDs) são reconhecidos como uns novos candidatos a aplicações nanobiotecnológicas. Entre as estratégias não penetrantes do tratamento antineoplásico, as terapias fotodinâmica (PDT) e fototérmica (PTT) são consideradas as mais eficazes para o futuro. Até agora, o desenvolvimento de PDT e PTT é limitado pela capacidade da penetração da luz no tecido. Esta pesquisa está focada na elaboração e investigação de novos nanomateriais híbridos que podem ser usados na terapia invasiva estabelecida mais recentemente, com base no tratamento ultrassonográfico (Sonodinâmica) e de raios-X moles (Fotodinâmica) do câncer. Duas abordagens relacionadas serão investigadas. Um enfocará a preparação de nanocompósitos de NDs/TiO2 com GOQDs imobilizados (NDs/TiO2@GONDs). O outro é nanocompósito poroso à base de sílica com nanocristais de TiO2 e GOQDs imobilizados (SiO2/TiO2@GOQDs). A ideia do projeto é baseada na capacidade do TiO2 de produzir espécies bioativas sob tratamento com ultrassom. A integração de TiO2 em nanocompósitos pode melhorar a estabilidade coloidal (NDs), estrutura cristalina necessária (SiO2) e biocompatibilidade (GOQDs, NDs); garantir alta área de superfície e nanotamanho de partícula (SiO2, NDS), fornece fotoluminescência das partículas (GOQDs). Adicionalmente, a imobilização covalente de foto-sensibilizadores e componentes bioativos na superfície de nanocompósitos via linker foto-clivável é planejada para garantir sua liberação controlada.. , Situação: Em andamento; Natureza: Pesquisa. , Alunos envolvidos: Graduação: (1) / Doutorado: (2) . , Integrantes: Volodymyr Zaitsev - Coordenador / Mykhailo Nazarkovskyi - Integrante / Albina Mikhraliieva - Integrante., Financiador(es): Conselho Nacional de Desenvolvimento Científico e Tecnológico - Bolsa., Número de produções C, T & A: 12

• 2019 - Atual

  CONFINAMENTO QUÂNTICO DE PONTOS DE CARBONO COM FLUORESCÊNCIA ALTA EM UNS NANOREATORES À BASE DE SÍLICA, Descrição: Edital FAPERJ APQ1-2019. Pontos quânticos de carbono (CQDs) são uma nova classe exclusiva de nanoobjetos que solúveis em água com intensa fluorescência e têm grande potencial em química analítica, biotecnologia e nanomedicina. Ao contrário de outros nanomateriais conhecidos, como nanopartículas de metais nobres, pontos quânticos semicondutores, híbridos de halogenetos metálicos orgânicos, os CQDs exibem numerosos vantagens como alta fotoestabilidade, baixa toxicidade e baixo custo. Finalmente, a produção e aplicação de CQDs são muito sustentáveis. Eles podem ser obtidos a partir de vários objetos orgânicos e degradar em um ambiente natural. Os CQDs podem ser obtidos pela oxidação de grandes objetos de carbono, como os nanotubos de carbono grafite ou óxido de grafeno. Porém, eles podem ser construídos a partir de moléculas orgânicas na abordagem ?bottom-up?. É óbvio que a decomposição pirolítica de compostos orgânicos não pode fornecer controle eficiente do rendimento, pureza e tamanho dos CQDs. Portanto, tais propriedades importantes de CQDs como tamanho, geometria, natureza dos grupos funcionais de superfície e faixa de dopagem de heteroátomos variam de síntese para síntese. O objetivo do projeto é o desenvolvimento do procedimento, permitindo a preparação robusta de CQDs com propriedades fotoquímicas reproduzíveis, melhor distribuição de tamanho e maior pureza. Para atingir o objetivo do projeto, silica gels serão usados como um nanoreator para confinar o crescimento e a forma das nanopartículas de carbono. Os CQDs serão obtidos usando abordagem ?bottom-up? por pirólise de compostos orgânicos apropriadas adsorvidas em poros de gel de sílica. Diferentes amostras de sílica gel com poros dentro da faixa de 3 -12 nm serão estudadas para avaliar a influência do tamanho dos poros nas propriedades dos CQDs. Adicionalmente, a superfície da sílica será modificada para aumentar a interação específica entre o hospedeiro e o precursor, e para dopar de CQDs com nitrogênio/enxofre.. , Situação: Em andamento; Natureza: Pesquisa. , Alunos envolvidos: Mestrado acadêmico: (1) Doutorado: (1) . , Integrantes: Volodymyr Zaitsev - Coordenador., Financiador(es): Fundação Carlos Chagas Filho de Amparo à Pesquisa do Estado do RJ - Auxílio financeiro., Número de produções C, T & A: 7

• 2019 - Atual

  Rede Fluminense para a Pesquisa e Desenvolvimento de Nanomateriais Nanobiosistemas, Descrição: Edital FAPERJ. Programa Redes de Pesquisa em Nanotecnologia no Estado do RJ. This proposal aims to create a strongly interconnected research network between six institutions (UFRJ, UFF, Inmetro, PUC, Fiocruz and LNCC) recognized for the quality of their researchers and students education, their quality scientific production and their vocation for interaction with the industrial environment. A number of teams from these institutions will pool their expertise and knowledge for the development of nanomaterials and nanobiosystems that have the potential for manufacturing nanodevices and nanoproducts in healthcare, for information storage and processing technologies and for clean energy generation and environmental preservation. Creativity resulting from the synergy between researchers working in Materials Science, Biological and Pharmaceutical Sciences, Physics, Chemistry, Medicine. Computational and Bioinformatics Modeling and various levels of experience (consolidated researchers, mid-career and promising young people) will undoubtedly allow the generation of frontier research with a high scientific-technological level. It is important to emphasize that, besides knowledge generation, our proposal has a strong vocation for innovation, since the laboratories of practically all teams involved have official programs to support the generation of companies and products. This project will also contribute to the consolidation of the new nanobiosystems graduate program that involves four institutions forming this network (UFRJ, INMETRO, LNCC and FIOCRUZ) and which aims to train qualified researchers able to propose sustainable solutions using nanoscience and nanotechnology for the challenges. current and future health and environmental issues that are critical for the country.. , Situação: Em andamento; Natureza: Pesquisa. , Alunos envolvidos: Graduação: (1) / Mestrado acadêmico: (2) / Doutorado: (1) . , Integrantes: Volodymyr Zaitsev - Integrante / Mykhailo Nazarkovskyi - Integrante / Adriana Gioda - Integrante / Cristina Alves de Souza - Integrante / Luiz Anastácio Alves - Integrante / Tatiana Saint'Pierre - Integrante / Rodrigo da Cunha Bisaggio - Integrante / Nicolás A. Rey - Integrante / Renato da Silva Carreira - Integrante / Carlos Alberto Achete - Coordenador., Financiador(es): Fundação Carlos Chagas Filho de Amparo à Pesquisa do Estado do RJ - Bolsa., Número de produções C, T & A: 9

• 2016 - 2019

  PQ-2015: Funcionalização de Si, SiC, e partículas de nano - diamantes, para a sua aplicação bio-analítica e entrega da droga, Descrição: As nanopartículas (NP), que tem menos ou nenhuma citotoxicidade em seguida, reconhecido por sua estabilidade melhorada em suspensões de base aquosa. E as funções de superfície versáteis é um dos principais no sentido do desenvolvimento de novos candidatos para aplicação nano-biotecnologia como sondas de imagem e transportadores de drogas. Entre os mais promissores candidatos são: 1) Materiais à base de carbono e particularmente partículas de nanopartículas (NDS), e derivados de grafeno, 2) Materiais à base de silício e, particularmente, as nanopartículas de carboneto de silício (NSIC) e silício (NSI), 3) Híbrido núcleo - concha de material de nanopartículas com núcleo funcional (magnético, luminescente, etc.) protegidos com escudo biocompatível. Devido à conhecida química de superfície, todas estas partículas podem ser funcionalizados e aplicação de bio-analítica transportadoras de organo-minerais, assim híbridas específicas e, particularmente, para a entrega de droga pode ser desenvolvida. Existem dois aspectos importantes em tal aplicação das nanopartículas de: 1) A seletividade para o determinado composto químico, 2) Liberação de fármaco desencadeada. O projeto proposto irá elaborar uma estratégia, e metodologia para a funcionalização das nanopartículas selecionados, a fim de: a) Melhorar a sua estabilidade em suspensão da água; b) Para aumentar a sua biocompatibilidade; e c) Desencadear absorção de drogas e solte. Estabilização da solução de nanopartículas será conseguida por imobilização covalente de agentes tensioactivos não-iónicos na superfície da partícula. Isto pode também melhorar a biocompatibilidade NP. A seletividade da adsorção irá ser conseguida por imobilização covalente e não covalente da droga. Para a imobilização de não-covalente, de alta afinidade do fármaco para a superfície da partícula será fornecida por meio de interação de multi-ponto com grupos superficiais imobilizados. Libertação do fármaco ativo do medicamento será conseguido por imobilização de ligantes fotoativos e tratamento eletromagnético ou térmica das partículas. Compostos modelo, bem como alvo biologicamente importante compostos serão estudados no projeto. É importante para a realização do projeto que a imobilização das drogas e sua libertação desencadeada será controlado por nano-fluido UPLC-QTOF-MS disponíveis na PUC-Rio.. , Situação: Concluído; Natureza: Pesquisa. , Alunos envolvidos: Mestrado acadêmico: (2) Doutorado: (2) . , Integrantes: Volodymyr Zaitsev - Coordenador., Financiador(es): Conselho Nacional de Desenvolvimento Científico e Tecnológico - Bolsa., Número de produções C, T & A: 9

• 2014 - 2019

  ORGANO-MINERAL MULTIFUNCIONAL MATERIAIS PARA MICROEXTRAÇÃO EM FASE SÓLIDA E CROMATOGRAFIA, Descrição: Free radicals in the human body damage the cell membrane, causing many pathologies such as: atherosclerosis, diabetes, rheumatism, inflammation, diseases of the musculoskeletal system affect the eyes, causing pulmonary disease, premature aging, cancer. It is generally believed that the effective "hijackers" of free radicals are phenolic compounds containing aromatic ring associated with one or more OH ? groups, and particularly polyphenolic compounds class of phenolic acids, stilbenes, flavonoids, including anthocyanidins, flavanones, flavones, isoflavones, flavonols, flavanon. Most of these compounds are present in some fruits and herbs (including extracts and juices), honey. Recently it was demonstrated that in addition to antioxidant activity many of polyphenolic compounds poses immuno-stimulating, anti-viral, anti-inflammatory, anticarcinogenic, and even anti-aging activity. Because of different biological activity and toxicity of polyphenolic compounds, there is strong demand for identification and quantification of individual biologically active phenolic compounds in food and herbs. State-of-art analytical technic that used for such task is HPLC-MS. Because of low selectivity for such complex matrices HPLC-MS analysis, require adequate sample preparation. Until now no acceptable universal approach for sample, preparation is proposed. In the project new adsorbents for selective solid phase, extraction will be investigated. Selectivity of the proposed adsorbents towards polyphenolic compounds arises from: a) - interaction between analyte and immobilized ligand, b) strong chelating properties of phenolic compounds to some metal ion immobilized on organosilica surface, c) selective interaction of ?C=C- bond of analyte with immobilized Ag ions, and d) ion-pair interactions with immobilized surfactants. The project goal is to develop a technology (procedure) of natural product (such as fruits, herbs and extracts from them) analysis for identification and quantitative determination of polyphenolic compounds that combines UPLC-Q-TOF chromatographic technique with new procedures for sample preparation and particularly with solid-phase extraction of biologically active polyphenolic compounds on selective silica-based SPE cartridges.. , Situação: Concluído; Natureza: Pesquisa. , Alunos envolvidos: Mestrado acadêmico: (2) Doutorado: (3) . , Integrantes: Volodymyr Zaitsev - Coordenador / ALEKSEEV, S. A. - Integrante / Kobylinska, N. G. - Integrante / DIDUKH, I. - Integrante / Mykhailo Nazarkovskyi - Integrante / Eloah Pereira Avila - Integrante / Albina Mikhraliieva - Integrante / Olena Artiushenko - Integrante / SYROTCHUK, O.A. - Integrante / Andrii Moskalenko - Integrante., Financiador(es): European Union Horizon 2020 - Cooperação., Número de produções C, T & A: 10

• 2014 - 2018

  CNPq- PVE: Fabrication of hybrid SiC and nanodiamond particles with immobilised photoreceptors and their bio-analytical application for controlled drug delivery, Descrição: Preparation of new nanoparticles having no or less cytotoxicity then known one is one of the major direction in development of novel systems for drug-delivery. Among carbon-based materials nanodiamond particles (NDs) have started to emerge as novel candidate for promising applications in the field of nano-biotechnology as imaging probes and drug carriers. NDs do not show the toxicity of other nanoparticles, notably gold, making them ideal nanoscale drug delivery platforms. Furthermore, NDs can exhibit intrinsic fluorescence from point defects making them candidates for biomedical imaging applications. It seems silicon carbide nanoparticles (nSiC) also possess low cytotoxicity and high fluorescence, as well as surface-modified silicon nanoparticles (nSi). Due to known surface chemistry, all these particles can be functionalised and thus hybrid organo-mineral carriers specific bio-analytical application and particularly for drug delivery can by developed. There are two important aspects in such application of nanoparticles: 1) selectivity to certain drug and 2) triggered drug release. The first aspects will be achieved by: a) covalent immobilisation of target drug on the carrier surface, b) non-covalent immobilisation of the drug due to its multi-valent interaction with surface immobilised long-chain surfactants such as Triton X100. Triggered drug release will be achieved by immobilisation of photoactive functional groups (such as o-nitrophenol derivatives) and because of high photoactivity of the selected particles. Model compounds such as: horse radish peroxidase (HRP), lectin and mannose (targeting of urinary E.coli infections), as well as target biologically-important compounds: insulin, cephalosporin and amphotericin B (tuberculosis), Doxorubicin and Paxlitaxel (as anticancer drug) will be studied in the project. It is important for the project realisation that the immobilisation of the drugs and their triggered release will be controlled by nanofluid UPLC-Q-Tof (from Waters) available at PUC-Rio.. , Situação: Concluído; Natureza: Pesquisa. , Alunos envolvidos: Graduação: (1) / Mestrado acadêmico: (1) / Doutorado: (4) . , Integrantes: Volodymyr Zaitsev - Coordenador / BOUKHERROUB, RABAH - Integrante / ALEKSEEV, S. A. - Integrante / TURCHENIUK, KOSTIANTYN - Integrante / Sabine SZUNERITS - Integrante / KORYTKO, DMYTRO - Integrante / Mykhailo Nazarkovskyi - Integrante / Eloah Pereira Avila - Integrante / Albina Mikhraliieva - Integrante / Olena Artiushenko - Integrante., Financiador(es): Conselho Nacional de Desenvolvimento Científico e Tecnológico - Bolsa., Número de produções C, T & A: 12

• 2014 - 2016

  Produtividade PUC-Rio: Materiais organo-minerais multifuncionais como adsorventes para fase sólida seletivo microextração de compostos biologicamente importantes e sua análise com nano-UPLC-QToF, Descrição: atividade científica. , Situação: Concluído; Natureza: Pesquisa. , Alunos envolvidos: Doutorado: (1) . , Integrantes: Volodymyr Zaitsev - Coordenador., Financiador(es): Pontifícia Universidade Católica do Rio de Janeiro - Bolsa.

• 2012 - 2018

  Innovative Technologies for Chemical Security, Descrição: Advances across the chemical and biological (life) sciences are increasingly enabled by ideas and tools from sectors outside these disciplines, with information and communication technologies playing a key role across 21st century scientific development. In the face of rapid technological change, the Organisation for the Prohibition of Chemical Weapons (OPCW), the implementing body of the Chemical Weapons Convention (?the Convention?), seeks technological opportunities to strengthen capabilities in the field of chemical disarmament. The OPCW Scientific Advisory Board (SAB) in its review of evelopments in science and technology examined the potential uses of emerging technologies for the implementation of the Convention at a workshop entitled ?Innovative Technologies for Chemical Security?, held from 3 to 5 July 2017, in Rio de Janeiro, Brazil. The event, organized in cooperation with the International Union of Pure and Applied Chemistry (IUPAC), the National Academies of Science, Engineering and Medicine of the United States of America, the Brazilian Academy of Sciences, and the Brazilian Chemical Society, was attended by 45 scientists and engineers from 22 countries. Their insights into the use of innovative technological tools and how they might benefit chemical disarmament and non-proliferation informed the SAB?s report on developments in science and technology for the Fourth Review Conference of the Convention (to be held in November 2018), and are described herein, as are recommendations that the SAB submitted to the OPCW Director-General and the States Parties of the Convention. It is concluded that technologies exist or are under development that could be used for investigations, contingency, assistance and protection, reducing risks to inspectors, and enhancing sampling and analysis.. , Situação: Concluído; Natureza: Pesquisa. , Alunos envolvidos: Graduação: (0) / Especialização: (0) / Mestrado acadêmico: (0) / Mestrado profissional: (0) / Doutorado: (31) . , Integrantes: Volodymyr Zaitsev - Integrante / TIMPERLEY, CHRISTOPHER M. - Integrante / FORMAN, JONATHAN E. - Coordenador / BORRETT, VERONICA - Integrante / CURTY, CHRISTOPHE - Integrante / MIKULAK, ROBERT - Integrante / GONZALEZ, DAVID - Integrante., Financiador(es): European Union Horizon 2020 - Cooperação., Número de produções C, T & A: 5

• 2012 - 2014

  Porous Silicon Carbide as a support for Co metal nanoparticles in Fischer Tropsch synthesis, Descrição: Searching for the alternative energy sources and particularly for liquid fuel is strategic task for the nearest future. Renewable biomass, large deposits of natural gas and coal can be such sources. A major challenge for this direction is to develop efficient the gas-to-liquid process. The heart of such process is Fischer-Tropsch (FT) synthesis (CO hydrogenation by hydrogen) that takes place on Co or Fe catalysts supported on Al2O3 or SiO2. The FT reaction is usually carried out at 200 - 350 °C and at elevated pressures (up to 40 bars). At these stress conditions the chemical nature of the support material plays an important role. Significant support interaction is observed for Al2O3 and TiO2 leading to the formation of inactive compounds (so-called SMSI effect). SiO2 support exhibits a weaker interaction. However, its low thermal conductivity provokes overheating of the metals due to a high exothermic nature of the FT reaction. It leads to sintering of the active compounds. Consequently, these effects cause irreversible deactivation of the catalyst. The main objective of the proposed project is the development of new catalysts which demonstrate high activity/selectivity with improved stability towards extreme hydrothermal conditions in FT reaction. To do so, we propose to apply porous silicon carbide (pSiC) as a support in the catalyst. The use of pSiC prevents sintering and chemical reaction of cobalt metal with a support thanks to its high thermal conductivity, outstanding chemical inertness and mechanical strength. Moreover, silicon carbide demonstrates mesoporous framework enabling its impregnation with cobalt particles. This will lead to higher activity/selectivity in comparison to nonporous supports in terms of mass unit of the catalyst. For more benefit concepts of nanotechnology in catalyst preparation will be introduced to control the size and shape of cobalt nanoparticles, known as hot injection method.. , Situação: Concluído; Natureza: Pesquisa. , Alunos envolvidos: Graduação: (3) / Mestrado acadêmico: (5) / Doutorado: (2) . , Integrantes: Volodymyr Zaitsev - Integrante / Santiago G. Granda - Integrante / Christine COURILLON - Integrante / Françoise MARTIN - Coordenador / Raphael BRETIN - Integrante., Financiador(es): European Commission - Cooperação.

• 2011 - 2014

  Fabrication of particles with photo receptors: bio-analytical application such as controlled drug delivery, Descrição: The importance of carbon-based materials in biological applications has been recognized. Especially, nanodiamond particles (referred to as nanodiamonds, NDs) have started to emerge as novel candidate for promising applications in the field of nano-biotechnology as imaging probes and drug carriers. NDs do not show the toxicity of other nanoparticles, notably gold, making them ideal nanoscale drug delivery platforms. Furthermore, NDs can exhibit intrinsic fluorescence from point defects making them candidates for biomedical imaging applications. ND particles are particularly attractive for biomedical applications as functionalization and biomolecule immobilization are readily accomplished. Triggered drug release allows the functionalized NDs to find their targets before the drugs are activated by local conditions. In this sense, the NDs are performing the well established role of postdrugs, smuggeling the inactive compound to their targets where they are released through bond cleavage. The objective of the proposed program concerns the fabrication of NDs modified with photo-label linkers where different molecules can be directly attached, without chemically modification of the biomolecule itself. In a proof of principle, horse radish peroxidase (HRP) will be linked to NDs modified with the photo-label o-nitrobenzyl group and the release followed by UV/Vis. In a later state the controlled release of drugs such as ibuprofen, adriamycin or antigens will be looked at. The proposed research project brings together centers from France, the UK, Spain and the Ukrain. The network offers training in the fabrication and characterization of new materials for biological applications.. , Situação: Concluído; Natureza: Pesquisa. , Alunos envolvidos: Graduação: (5) / Mestrado acadêmico: (7) / Doutorado: (5) . , Integrantes: Volodymyr Zaitsev - Integrante / SZUNERITS, SABINE - Coordenador / Margarita MARTINEZ-PAIS LOSCERTALES - Integrante / Peter CRAGG - Integrante / Veaceslav GROSU - Integrante / Eusebio JIMÉNEZ ARROYO - Integrante., Financiador(es): European Commission - Cooperação.

• 2010 - 2013

  SOL-GEL Materials Synthesis and Characterization for Optical Sensing, Descrição: The objective of this collaboration is to share the expertise and knowledge of the involved partners to develop selective and sensitive sensors for molecules with biological and industrial interest. The materials, based on the molecular imprinting technology and in hybrid silica, will be prepared using the sol-gel processes. The Université Paul Sabatier in Toulouse (UPS-TLSE) has an extended experience in the synthesis of functionalized chromophores which can be used as molecular probes. The University of Kiev (UNIKIEV) is internationally known for their works in immobilization of functionalized probes in sol-gel materials and carbon electrodes. The Universidad de Oviedo (UNIOVI) as well as the University of Pierre and Marie Curie as the Ecole Superieure de Physique et Chimie Industrielle have all a wide background in characterizing this kind of materials. Finally, the University of Oviedo and the University of Kiev have huge experience in the development of optical sensors.. , Situação: Concluído; Natureza: Pesquisa. , Alunos envolvidos: Graduação: (10) / Mestrado acadêmico: (5) / Doutorado: (7) . , Integrantes: Volodymyr Zaitsev - Integrante / FRAISSARD, JACQUES - Integrante / Santiago G. Granda - Coordenador / Michel Baltas - Integrante., Financiador(es): European Commission - Cooperação.

• 2006 - 2009

  Development of a novel sensing technique based on nanomechanics for rapid detection of bioagents, Descrição: Abstract of Research The overall project objective is to establish a reliable nanomechanics based platform for the development of portable sensitive devices capable to detect rapidly and selectively a number of different pathogens and biological agents (bacteria, viruses, toxins). Selected receptors will be immobilized on the gold or silicon (porous or non porous) side and the cantilever response due to the target receptor binding will be measured. Amplification of signal response is proposed to be achieved using a magnetic field and magnetic nanoparticles. Major Objectives Main research objectives are: Development of silicon/porous silicon cantilever arrays, as nanomechanical transducers Development of surface modification and immobilization techniques for bio agent receptors on model silicon/silicon oxide surfaces and newly developed cantilever surfaces Characterization of cantilever surface for activity of the immobilized bioreceptors Measurement of cantilever bending and frequency shifts resulting from target-receptor binding Development of enhancement methods based on nanopores and nanospheres to increase the sensor sensitivity. Feasibility study for scaling down the device from the laboratory bench scale to a portable device.. , Situação: Concluído; Natureza: Pesquisa. , Alunos envolvidos: Mestrado acadêmico: (3) Doutorado: (2) . , Integrantes: Volodymyr Zaitsev - Coordenador / Roberto Raiteri - Integrante / Yael Nemirovsky - Integrante / Itamar Willner - Integrante / Petr Skladal - Integrante., Financiador(es): Nato Advanced Study Institute - Cooperação.

• 2006 - 2008

  Hydrogen Reservoirs based on Porous Silicon Nanostructures for Portable, Descrição: SUMMARY The main aim of our project will be study of porous silicon (PS) nanostructures as new hydrogen reservoirs. The main objectives of our project are: 1) quantitative analysis of hydrogen amount chemically bound to the specific surface of the nano-PS structures; 2) enhancement of the hydrogen amount which can be stored in PS nanostructures up to 10 mass% due to elaboration of new approaches allowing reversible storage; 3) elaboration of original technological ways allowing in future mass production of the PS-based hydrogen reservoirs at an industrial level; 4) elaboration of efficient ways for hydrogen desorption from the PS nanostructures at low temperatures (<200°C) and at atmospheric pressure; 5) ensuring of high reproducibility and stability of hydrogen storage in the PS nanostructures at room temperature and atmospheric pressure. We should especially precise that to our knowledge, the PS nanostructures are original and unique nanomaterial type in which several possibilities for hydrogen storage and production can be simultaneously realized: 1) physisorption; 2) chemisorption; 3) hydrogen incorporation in crystalline nanostructure; 4) hydrogen production due to oxidation. Therefore, general study of this nanomaterial as hydrogen reservoir is a new and extremely promised research work of the first order importance.. , Situação: Concluído; Natureza: Pesquisa. , Alunos envolvidos: Graduação: (4) / Mestrado profissional: (2) / Doutorado: (1) . , Integrantes: Volodymyr Zaitsev - Integrante / BARBIER, D - Coordenador., Financiador(es): European Commission - Cooperação.

• 2001 - 2004

  Biomimetic Catalysts obtained by Surface Modification for Green Chemistry Processes, Descrição: Objectives The main objective is to create new ?Green Chemistry? catalytic systems for an efficient and environmentally friendly utilisation of hazardous organic compounds. To achieve this objective it is necessary to: design a new type of biomimetic catalytic systems. It will be carried out by mosaic chemical modification of active carbon and silica gel surface with formation of active centres uniformly distributed in hydrophobic surroundings. That means: work out a technique for obtaining surface with specified hydrophobicity; develop procedures for evenly distribution of active centre on this surface. Design of an environmentally friendly catalytic process is another major objective of the project. The objective will be achieved by realising the following steps: 1. Synthesise novel catalyst with uniformly distributed active centres in a hydrophobic environment. 2. Study adsorption properties of obtained catalytic systems with respect to the target organic molecules. 3. Investigate properties of the novel catalyst in the reaction involving target hazardous organic substances. 4. Optimise the catalytic processes in relation to the physics chemical properties of the reactants.. , Situação: Concluído; Natureza: Pesquisa. , Alunos envolvidos: Mestrado acadêmico: (2) Doutorado: (4) . , Integrantes: Volodymyr Zaitsev - Coordenador / Vitaly Budarin - Integrante., Financiador(es): European Commission - Cooperação.

• 2001 - 2002

  Development of Integrated Technology for Heavy Metal Recycle from Nickel-Containing Wastewater and Sludge, Descrição: Objectives Sludge obtained from exhausted electrolyte contains substantial amount of environmentally and economically important metals, such as Ni, Cu, Cr, Zn and Fe. In these dais practice the slugs are not utilized for re-use and discard since it is considered as merely hazardous waste. From other hand Ukraine hasn?t Ni and Cr metal sources. With this project we intent to develop technology for recycling major components of sludge (Ni and Cu) and producing from it marketable materials, such as enamel (form Ni containing sludge), pigments (Cr-containing) and adsorbent (from etching solution) Science and Technology involved. Computer simulation of sludge models to develop the procedure of it processing. Developing of low waste technology for color metal recycling. Reducing of water request for the plant thanks to water re-use. Adsorbent preparation from waste material for it utilization in water purification in internal plant?s cycle. Other research units: Dnepropetrovsk technology University, Ukraine.. , Situação: Concluído; Natureza: Pesquisa. , Alunos envolvidos: Doutorado: (1) . , Integrantes: Volodymyr Zaitsev - Coordenador / Gennadiy Kochetov - Integrante / A. Dzurik - Integrante., Financiador(es): Nato Advanced Study Institute - Cooperação.

• 1999 - 2002

  SUPERACID SOLIDS, Descrição: This work is currently focused on development of new generation of solid superacid catalysts that based on metal oxides and silicates with covalently bonded over flexible chain acidic groups (sulphonic, phosphonic and carboxylic). These catalysts offer advantages in environmental protection (no leaching of strong acids) technological improvements (no aggressive, highly corrosive liquids energy efficiency (increasing acidity of solid acids allowed low temperature isomerization) New regulation concerning the elimination of benzoid compounds from petrol in USA and Europe initiated correspondent changing in Ukrainian standards for petrol products also. Under NAFTOKHIM (main user of current project) supervision new standard for petrol products is currently developing. Ukrainian standard will be based on the European and USA ones and so will demand elimination of benzoid compounds from petrol products. It is known that in common technological petrol-cracking processes the main petrol fraction has low-octane number. Benzoid compounds were introduced to petrol for increasing of octane number instead on led compounds. But their toxicity and possible thermal destruction to carcinogenic polyaromatic products initiated research in development of new generation of petrol. This petrol should contain no led and benzoid components and posses high octane number. To solve this problem petrol should contain minimum of n-alkanes and maximum of iso-alkanes. Catalytic isomerization is used for this. Many disadvantages related to the use of liquid catalysts, namely H2SO4 or HF, mainly employed for catalytic alkylation have led to intensive research on solid catalysts. Fundamental expectations are connected with strong solid acids immobilised on inorganic carriers in general and with sulphated zirconia, in particular. According to proposed mechanism of short-chain alkan transformation the catalytic process is bifunctional and requires co-operation among neighbouring acidic groups in transfer of a hydron. Such co-operation is essential feature in the manifestation of superacidity.. , Situação: Concluído; Natureza: Pesquisa. , Alunos envolvidos: Graduação: (6) / Mestrado acadêmico: (5) / Doutorado: (3) . , Integrantes: Volodymyr Zaitsev - Integrante / FRAISSARD, J - Coordenador / K. Uteniazov - Integrante., Financiador(es): Nato Advanced Study Institute - Cooperação.

• 1999 - 2001

  Covalently bonded acids in catalysis, Descrição: Scientific goals This work is currently focused on development of new generation of solid catalysts that can be used to increase the petrol quality and particularly its octane number. Objectives In order to replace existing technologically unfavourable and environmentally harmful liquid catalysts for alkylation of short paraffin?s (petrol product) new generation of solid catalysts with superacidic properties should be developed. For this metal oxides with covalently bonded over flexible chain acidic groups will be obtained. This type of catalysts will be based on oxides with deferent acidity (zirconia, silica with monolayer of zirconia, zeolites, mesoporous silicates, zeolites ets.) that will be control and regulate by additional hydrophobisation of support surface. Acidic properties of covalently bonded groups will be also varied. Sulphonic, phosphonic and carboxylic acids will be attached to surface. This will allow to change distribution and impact of different nature acidic sites (Lewis/ Bronsted) and optimise catalytic properties of the materials. From flexibility of distant acidic centres bonded with surface over alkyl chain and hydrophobisity of surface superacidity of bonded layer can be expected. It can promote consequent decreasing of catalytic reaction temperature. All mentioned above can provide new generation of superasidic catalysts for low-temperature isomerisation of petrols with next advantades: 1. Better environmental protection (no leaching of strong acids) 2. technological improvements (no aggressive, highly corrosive liquids) 3. energy efficiency (increasing acidity of solid acids allowed low temperature isomerization) Proposed catalysts based on metal oxides and silicates with covalently bonded over flexible chain acidic groups (sulphonic, phosphonic and carboxylic). Due to combination of strong acid properties, hydrophobisity and insolubility these catalysts offer several advantages if use in petrol chemistry: 1. environmental protection (no leaching of strong acids) 2. technological improvements (no aggressive, highly corrosive liquids energy efficiency (increasing acidity of solid acids allowed low temperature isomerization). , Situação: Concluído; Natureza: Pesquisa. , Alunos envolvidos: Graduação: (1) / Mestrado acadêmico: (3) / Doutorado: (4) . , Integrantes: Volodymyr Zaitsev - Integrante / EVANS, J. - Integrante / FRAISSARD, J - Coordenador., Financiador(es): European Commission - Cooperação.

• 1996 - 1998

  NOVEL BONDED OXIDES WITH COVALENTLY IMMOBILISED ORGANIC LIGANDS FOR CHEMICAL SENSORS DEVELOPMENT, Descrição: A sets of materials (around 100 compounds) based on silica with immobilised luminescent dyes have been obtained. The dyes was designed to be selective for important pH region (6 ? 9) and for interaction with toxic metal ions in water. Different modified silicon oxide matrixes were used to improve stability, selectivity and sensitivity of the dyes. For developing of optical sensors few configuration of membrane that incorporate optically active materials were tested: transparent films and bids, resistible slides and disks. Adsorption and fluorescent emission spectra were recorded from the most perspective materials. It was shown that fluorescent of some samples strongly depends form solution pH and contamination of water by heavy metals. Chelating nature of modified silica increase sensitivity of sensors. It can be used for increasing analytical signal in diluted solutions. As a prototype of metal-selective chemical sensor benzoilphenylhydroxylamine silica gel was used since correlation between iron concentration in water and optical response of the sensor was found. New chemically modified silicas with covalently bonded chelating groups of N-benzoyl-N-phenylhydroxylamine (SiO2-BPHA) were obtained in a three-step surface reaction. A chemisorption of hydrogen and some metal ions contamination present in sea water (Fe(III), V(V), Cu(II), Mn(II), Co(II), Ni(II), Pb(II), Cd(II)) from aqueous media was investigated. From the results of a quantitative physicochemical analysis it was found that dissociation constant of bonded BPHA considerably rose in comparison with dissociation constants of analogue in solutions. Bonded complexes with all studied metals were less stable. Linear correlation between stability of complexes in solution and on the surface was found as log b(surf.) = log b (sol.) ? 3.07. Strong fixation of counter-ions near surface charged groups was concluded from experiment. SiO2-BPHA demonstrates high selectivity towards Fe(III) and V(V) with selectivity coefficient Fe/Cu = 150 and Fe/Cd = 105. Linear correlation was found between concentration of sorbed Fe3+ and Kubelka-Munk function from SiO2-BPHA that has been used for iron optical sensoring.. , Situação: Concluído; Natureza: Pesquisa. , Alunos envolvidos: Mestrado acadêmico: (2) Doutorado: (3) . , Integrantes: Volodymyr Zaitsev - Integrante / SKOPENKO, V.V. - Integrante / J. Legrand - Coordenador / T. Iskanderov - Integrante / J.M. Slater - Integrante., Financiador(es): European Commission - Cooperação.

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