Mr. Eduard Tokar | Analytical Chemistry | Best Researcher Award

Sakhalin State University, Russia

👨‍🎓Profiles

• Scopus Profile
• ORICD Profile

🎓 Education and Academic Journey

Mr. Eduard Tokar’ has built a solid academic foundation in chemistry and industrial ecology. He earned his Bachelor’s (2011-2015) and Master’s (2015-2017) degrees in Chemistry from Far Eastern Federal University (FEFU), Russia. His passion for research led him to postgraduate studies (2017-2021) in Industrial Ecology and Biotechnology, where he specialized in the environmental impact of industrial processes. In 2022, he was awarded the title of Candidate of Chemical Sciences (PhD) in Physical Chemistry and Ecology, solidifying his expertise in both chemical sciences and environmental sustainability.

🏛️ Professional Experience and Teaching

Eduard Tokar’ has an extensive background in both academic research and teaching, with a focus on nuclear technology and environmental safety. His career at Far Eastern Federal University began in 2015 as a laboratory research assistant and leading engineer in the Department of General Inorganic and Organoelement Chemistry. From 2019 to 2021, he served as a Junior Researcher in the Academic Department of Nuclear Technology, contributing to advancements in radiation safety and nuclear materials.

Currently, he is a Senior Lecturer at the Department of Nuclear Technology (2021 – Present) at Sakhalin State University. In this role, he is actively involved in student supervision, curriculum development, and research projects. He manages the educational process for undergraduate and graduate students in courses such as:

• Scientific and Technical Design

• Materials for Traditional and Alternative Energy

• Mathematical Statistics in Experiment

• Methods of Water Purification from Radionuclides

• Radiochemistry and Radioecology

🔬 Research Interests and Contributions

Mr. Tokar’ specializes in nuclear and radiation safety at nuclear power facilities, working on methods to reduce environmental hazards associated with nuclear energy. His research extends to radiochemistry, materials science, and water purification techniques for removing radionuclides. His expertise in industrial ecology contributes to the development of sustainable solutions for managing nuclear waste and minimizing environmental contamination.

🏆 Impact and Influence in Nuclear and Environmental Chemistry

With a strong focus on nuclear technology and radiation safety, Mr. Tokar’ plays a crucial role in preparing students for careers in nuclear power, radiochemistry, and environmental protection. His work ensures that future scientists and engineers are equipped with the knowledge and skills necessary to maintain nuclear safety and develop sustainable energy solutions.

🛠️ Technical Expertise

Mr. Tokar’ has in-depth knowledge of chemical and nuclear technologies, with expertise in: Radiochemistry and Radioecology, Water purification and environmental remediation, Mathematical modeling and statistical analysis in experiments, Materials chemistry for nuclear energy applications, Chemical safety and risk assessment in nuclear power plants.

🎓 Teaching and Mentorship

A dedicated educator and mentor, Mr. Tokar’ has guided numerous students in chemical technology and nuclear safety, supervising theses on modern energy materials. His ability to integrate theoretical knowledge with practical applications helps students gain real-world expertise in nuclear power facility management and environmental protection.

🌍 Legacy and Future Contributions

Eduard Tokar’ continues to make significant contributions to nuclear and environmental chemistry, aiming to develop safer and more sustainable nuclear energy technologies. His expertise in radiation safety and water purification is critical for minimizing the environmental impact of nuclear energy production. As the world moves towards cleaner and more efficient energy solutions, his research will remain at the forefront of ensuring safety and sustainability in the nuclear industry.

📖Notable Publications

Sorbents Based on Polyacrylonitrile Fiber for Complex Recovery of Artificial 137Cs and Natural Radionuclides from Natural Media
Authors: Iuliia G. Shibetskaia, Viktoriia A. Razina, N. A. Bezhin, Sofia B. Yarusova, Ivan Gundarovich Tananaev
Journal: Water (Switzerland)
Year: 2025

Composite Sorbents Based on Chitosan Polymer Matrix and Derivatives of 4-Amino-N′-hydroxy-1,2,5-oxadiazole-3-carboximidamide for Uranium Removal from Liquid Mineralized Media
Authors: Anna I. Matskevich, Konstantin V. Maslov, Veronika A. Prokudina, Nikita S. Markin, E. A. Tokar’
Journal: Gels
Year: 2025

Composite Sorbents Based on Polymeric Se-Derivative of Amidoximes and SiO2 for the Uranium Removal from Liquid Mineralized Media
Authors: Anna I. Matskevich, Konstantin V. Maslov, Veronika A. Prokudina, Evgenij A. Eliseenko, E. A. Tokar’
Journal: Gels
Year: 2025

Decontamination of Spent Ion-Exchange Resins from the Nuclear Fuel Cycle Using Chemical Decontamination and Direct Current
Authors: Anna I. Matskevich, Nikita S. Markin, Marina Palamarchuk, E. A. Tokar’, Andrei Mikhailovich Egorin
Journal: Journal of Cleaner Production
Year: 2024

Distribution of Np, Pu, and Am in Water, Suspended Matter, and Bottom Sediments of Peter the Great Bay
Authors: Natalia V. Kuzmenkova, Vladimir G. Petrov, Alexandra K. Rozhkova, S. N. Kalmykov, Xiaolin Hou
Journal: Radiochemistry
Year: 2024

New Sorbents Based on Polyacrylonitrile Fiber and Transition Metal Ferrocyanides for 137Cs Recovery from Various Composition Solutions
Authors: Iuliia G. Shibetskaia, Viktoriia A. Razina, N. A. Bezhin, Victoria S. Yankovskaya, Ivan Gundarovich Tananaev
Journal: Applied Sciences (Switzerland)
Year: 2024