Olena Artiushenko

Pós-doutorado

Formação complementar

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Áreas de atuação

Participação em eventos

Orientou

Produções bibliográficas

• ARTIUSHENKO, OLENA ; ROJANO, WENDY S. ; NAZARKOVSKY, MICHAEL ; AZEVEDO, MARCELO FOLHADELLA M. F. ; SAINT&APOS ; KAI, JIANG ; ZAITSEV, VOLODYMYR . Recovery of Rare Earth Elements from Acidic Leaching Solution of the Red Lamp Phosphor Waste Using Phosphonic Acid-Functionalized Silica Adsorbent. SSRN Electronic Journals: The English & Commonwealth Law Abstracts Journal , v. 1, p. 1, 2022.

• 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.

• ARTIUSHENKO, OLENA ; KOSTENKO, LIUDMILA ; ZAITSEV, VLADIMIR . 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.

• 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, 2020.

• ARTIUSHENKO, OLENA ; PEREIRA ÁVILA, ELOAH ; 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, 2019.

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

• ARTIUSHENKO, O. ; ZAITSEV, V. ; 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.

• SABKO, V. ; PODPRUZHNIKOV, Y. ; URCHENKO, V. ; ARTIUSHENKO, O. ; IGNATENKO, O. . Quantitative determination of rosuvastatin in human plasma by HPLC-MC/MC method. In: Ukrainian conference on Analytical Chemistry, 2013, Donetsk. IX Ukrainian Conference on Analytical Chemistry, 2013.

• ZAITSEV, V. ; ARTIUSHENKO, O. . Analytical pre-concentration of caffeic acid, quercetin and rutin on specialized modified silica gel cartridges. In: International conference for students and PhD, 2012, Kiev. ?Modern problems in Chemistry?, 2012.

• Olena Artiushenko ; ZAITSEV, V. . Dispersive solid phase extraction and separation of rare earth on reusable hydroxamate immobilized adsorbent. In: Uzhhorod National University, 2019, Uzhhorod. Dispersive solid phase extraction and separation of rare earth on reusable hydroxamate immobilized adsorbent, 2019.

• Olena Artiushenko ; ZAITSEV, V. ; NAZARKOVSKY, MICHAEL . Nanopontos de carbono incorporados em sílica gel funcionalizada para recuperação seletiva dos elementos terras raras. 2022. (Apresentação de Trabalho/Congresso).

• ARTIUSHENKO, O. ; ZAITSEV, V. . Silica functionalized with 2,6-pyridinedicarboxylic acid for selective preconcentration of Rare Earth elements traces before ICP-MS analysis. 2018. (Apresentação de Trabalho/Congresso).

• ARTIUSHENKO, O. ; ZAITSEV, V. . Selective Solid Phase Extraction and Separation of Rare Earth Elements on Silica Based Nanoparticles before their Determination by ICP-MS. 2018. (Apresentação de Trabalho/Conferência ou palestra).

• ARTIUSHENKO, O. ; ZAITSEV, V. . Smart organo-mineral multifunctional materials for selective solid phase extraction of biologically active compounds. 2017. (Apresentação de Trabalho/Conferência ou palestra).

• ARTIUSHENKO, O. ; ZAITSEV, V. . Novos organo-minerais materiais de troca de ligantes para extração seletiva dos compostos polifenólicos. 2017. (Apresentação de Trabalho/Conferência ou palestra).

Projetos de pesquisa

• 2022 - Atual

  Functionalized carbon quantum dots incorporated into silica gel for dispersive solid phase extraction and selective separation of rare earth elements, Projeto certificado pelo(a) coordenador(a) Volodymyr Zaitsev em 01/02/2022., Descrição: Rare earth elements (REEs) have been increasingly used in modern industry as essential components of catalysts, high-performance magnets, superconductors, telecommunication systems. Clean energy development will further boost the demand for REEs since they are used in the production of batteries and solar panels. This will result in an increase of produced electronic waste (e-waste). Existing solvent extraction technologies for REEs production are environmentally unfriendly and generally not applicable for REE recycling from e-waste. Therefore, new environmentally sustainable technologies for REEs recovery shall substitute or supplement existing one. Adsorption technology of REEs recycling and separation is essential step ahead in this direction. Adsorption is more environmentally friendly and cost effective than solvent extraction, it offers high enrichment factor, rapid phase separation and the possibility of combination with different detection techniques. The aim of the current project is development of adsorption-based methodology for selective recovery of REEs from different e-wastes. Carbon nanodots (carbon nanodots, CNDs), graphene oxide quantum dots (graphene oxide quantum dots, GOQDs) and honeycomb-type graphene derivatives (honeycomb, Kagome graphene, KGO) will be used incorporated in the silica and alumino-silica matrix as adsorbents. To increase selectivity and affinity of adsorbents to ETRs, the following functional groups will be immobilized: aminodiphosphonic, pyridinecarboxylic, ethylenediaminetetraacetic and hydroxamic. Methodology of REEs adsorption recovery will be developed based on the metal adsorption/desorption conditions, selectivity, enrichment factors, adsorbent capacity, and reusability. The research will be accomplished with qualitative and quantitative characterization of the adsorbents, studies on physical and chemical properties.. , Situação: Em andamento; Natureza: Pesquisa. , Alunos envolvidos: Doutorado: (1) . , Integrantes: Olena Artiushenko - Integrante / Volodymyr Zaitsev - Coordenador / NAZARKOVSKY, MICHAEL - Integrante / Raphael Freire da Silva - Integrante., Financiador(es): Fundação Carlos Chagas Filho de Amparo à Pesquisa do Estado do RJ - Bolsa.

• 2022 - Atual

  Advanced bentonite based magnetic nanocomposite for enhancing uptake of rare earth metals, Projeto certificado pelo(a) coordenador(a) Volodymyr Zaitsev em 17/05/2022., Descrição: For this advanced bentonite based magnetic nanocomposite MNPs/Bnt with aminodiphosphonic and pyridinecarboxylic anchoring groups will be fabricated to be used for selective recovery of REEs from different e-wastes. The particularities of the synthesis of MNPs/Bnt nanocomposites and their characterizations by various physicochemical methods will be presented together with preliminary studies of the REE recovery methodology. , Situação: Em andamento; Natureza: Pesquisa. , Integrantes: Olena Artiushenko - Integrante / NAZARKOVSKY, MICHAEL - Integrante / ZAITSEV, VLADIMIR - Coordenador.

• 2020 - 2021

  Quantum confinement of strongly fluorescent carbon dots in silica-based nanoreactors, Descrição: Carbon quantum dots (CQDs) are a unique new class of highly fluorescent water soluble low-toxic nano-objects that have great potential in analytical chemistry, biotechnology and nanomedicine. In contrast to other known nanomaterials such as noble metal nanoclusters, semiconductor quantum dots, organic metal halide hybrids, CQDs exhibit numerous superior merits such as high photostability, low toxicity and low-cost. Finally, production and application of CQDs are very sustainable. They can be obtained from various organic objects and degrade in natural environment. CQDs can be obtained by oxidation of large carbon objects such as carbon nanotubes, graphite or graphene oxide. Contrary, they can be constructed from organic molecules in bottom-up approach. It is obvious that pyrolytic decomposition of organics cannot provide efficient control of CQDs yield, its purity, and size. Therefore, such important properties of CQDs as: size, geometry, nature of surface functional groups, and heteroatom doping range varies from synthesis to synthesis. The aim of the project is development of the procedure, allowing robust preparation of CQDs having reproducible photochemical properties, better size-distribution and higher purity. , Situação: Concluído; Natureza: Pesquisa. , Integrantes: Olena Artiushenko - Integrante / NAZARKOVSKY, MICHAEL - Integrante / ZAITSEV, VLADIMIR - Coordenador / Albina Mikhraliieva - Integrante., Financiador(es): Fundação Carlos Chagas Filho de Amparo à Pesquisa do Estado do RJ - Auxílio financeiro.

• 2015 - 2022

  Silica-based adsorbents with immobilized derivatives of phosphonic, hydroxamic and pyridinecarboxylic acids for dispersive solid phase extraction and separation of rare earth elements, Descrição: Rare earth elements (REEs) have been increasingly used in modern industry as essential components of many catalysts, high-performance magnets, superconductors, telecommunication systems. Clean energy development will further boost the demand for REEs since they are used in the production of batteries and solar panels. Environmentally sustainable production process shall substitute or supplement current ore sources. Thus, separation and recycling of REEs are of great importance to diversify the sources of REEs. Most existing technologies for enrichment of REEs are based on solvent extraction and ion exchange. They are not sustainable and are not applicable to electronic waste (e-waste) treatment. The main objective of the research is focused on the development of organo-silica adsorbents (OSAd) covalently immobilized by appropriate organic ligands with high affinity and selectivity towards REEs and their application in dispersive solid phase extraction (DSPE), selective pre-concentration and separation of the REEs from the complex matrix. , Situação: Concluído; Natureza: Pesquisa. , Integrantes: Olena Artiushenko - Integrante / Volodymyr Zaitsev - Coordenador / Wendy Sandoval - Integrante / Tatiana D. Saint'Pierre - Integrante / PEREIRA ÁVILA, ELOAH - Integrante / NAZARKOVSKY, MICHAEL - Integrante., Número de produções C, T & A: 5

• 2015 - 2019

  Novel organo-mineral multifunctional materials for selective determination of biologically active compounds, Descrição: Because of their bioactive properties natural products attracts much attention of medicine, pharmacology and biochemistry industries. Many of natural products demonstrate immune-stimulating, anti-viral, anti-inflammatory, anticarcinogenic, and even anti-aging activity. All these activities have been associated with polyphenolic compounds of next classes: phenolic acids, stilbenes, flavonoids, isoflavones. Different compounds demonstrate different biological activity and different toxicity. Until now, correlation between bioactivity and chemical composition of the compounds is not discovered. Therefore, for medical application of bioactive product it is required to know its composition. Chemical composition of natural products is very complex and required advances in separation technique and sample preparation. It is demonstrated that combination of group-selective adsorbents for solid-phase extraction (SPE) of the target compounds with HPLS-MS, can essentially improve analytical characteristics of the method. Until now, there no group-selective adsorbent for SPE pre-concentration of polyphenolic compounds. The main objective of the research is to develop reliable method for determination of polyphenolic compounds in fruits, vegetables and plants by HPLC-MS that will include selective pre-concentration and separation of the target compounds from matrix. Such pre-treatment can improve analytical characteristics of the method and particularly speed, selectivity and accuracy of the analysis; simplify procedure of sample preparation. To reach the objectives it is propose to use group-selective organo-mineral adsorbent for SPE or MSPE during sample preparation. , Situação: Concluído; Natureza: Pesquisa. , Integrantes: Olena Artiushenko - Integrante / Volodymyr Zaitsev - Coordenador / PEREIRA ÁVILA, ELOAH - Integrante / NAZARKOVSKY, MICHAEL - Integrante., Número de produções C, T & A: 2