Viktoriia Shtefan | Corrosion | Best Academic Researcher Award

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Prof. Dr Viktoriia Shtefan | Corrosion | Best Academic Researcher Award

Academic researcher , Leibniz-Institute for Solid State and Materials Research Dresden (IFW Dresden) , Germany

Professor Dr. Viktoriia Shtefan is an internationally recognized expert in technical electrochemistry, with over two decades of academic and research experience spanning Ukraine and Germany. She holds the position of academic researcher at the Leibniz-Institute for Solid State and Materials Research Dresden (IFW Dresden), while also leading the Department of Technical Electrochemistry at NTU “KhPI” in Ukraine. With a strong background in corrosion science, metallic glasses, and electrochemical coatings, Dr. Shtefan’s work is pivotal in advancing sustainable materials for energy, biomedical, and industrial applications. Her career includes prestigious fellowships, leadership in DFG-funded projects, and contributions to international collaborations. As a Ukrainian refugee scholar, she has also been a recipient of multiple mobility and support grants. Her prolific research output includes journal articles, book chapters, and a patent, reflecting both scientific depth and practical impact.

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🎓 Education

Dr. Viktoriia Shtefan began her academic journey at NTU “KhPI” in Kharkiv, Ukraine, where she earned her Bachelor’s (1999) and Master’s (2001) degrees in Chemical Engineering with a focus on Technical Electrochemistry. Her early research focused on hydrogenation in carbon steels and electrochemical impedance. She pursued her PhD (2000–2005), investigating radical ion salt synthesis and earned her Doctor of Engineering Sciences (2019) with a dissertation on molybdenum- and tungsten-based electrochemical coatings. Throughout her academic development, she has demonstrated a sustained commitment to corrosion science, surface chemistry, and the development of functional materials. Her graduate and postgraduate studies were supervised by renowned electrochemists and included training in potentimetric titration, microstructure analysis, and electrochemical process control. These qualifications laid the foundation for her multidisciplinary research that bridges electrochemistry, materials science, and industrial applications.

💼 Experience

Prof. Shtefan’s career trajectory spans teaching, research, leadership, and international collaboration. She has served as Assistant, Associate Professor, and later Full Professor at the Department of Technical Electrochemistry, NTU “KhPI” (2004–2024), where she led courses on corrosion, rare metals, catalysis, and nanomaterials. In 2024, she became Head of the Department. Internationally, she has held guest scientist roles at IFW Dresden under VolkswagenStiftung and DFG-funded projects, focusing on corrosion-resistant materials and biocompatibility of metallic glasses. Since 2023, she has been involved in advanced electrochemical projects in Germany, including the design of nanostructured electrodes for green hydrogen evolution. Her industrial experience includes internships in Spain and with Ukrainian R&D institutions. She also led a budget project focused on anti-corrosion strategies for nuclear power applications. Her diverse roles reflect an ability to integrate research, education, and innovation at the intersection of academia and industry.

🔍 Research Focus

Dr. Viktoriia Shtefan’s research revolves around corrosion science, electrochemical surface treatment, and the development of functional coatings for advanced industrial applications. Her specialization includes the nanostructuring of metallic glasses, electrochemical dealloying, and environmentally friendly surface protection technologies. Her work aims to improve the longevity and performance of materials exposed to aggressive environments, such as in nuclear reactors, biomedical implants, and hydrogen production. She has explored the interplay between microstructure and corrosion behavior using advanced surface and spectroscopic techniques. Current research projects involve developing sustainable coatings using molybdenum, tungsten, and chromium oxide composites, with implications for both biocompatibility and high-temperature corrosion resistance. Her interdisciplinary approach blends electrochemistry, metallurgy, and nanotechnology, and she has secured national and international grants. Through numerous collaborations and publications, she contributes to the transition toward corrosion-resistant, eco-conscious, and high-performance engineering materials.

📚 Publication top Notes

 

 

ARPITHA S B | Electroanalytical Methods | Best Researcher Award

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Mrs ARPITHA S B | Electroanalytical Methods | Best Researcher Award

Research Scholar at KUVEMPU UNIVERSITY in India

Arpitha S B is a dedicated Research Scholar at Kuvempu University, specializing in electrochemical sensors and nanomaterials. With a career that began as a Guest Faculty in 2020-2021, she has since advanced her expertise through her PhD research under Prof. B.E. Kumara Swamy. Arpitha’s work focuses on the development of innovative electrochemical sensors for biomolecules and organic pollutants, employing advanced techniques in electrochemistry and nanomaterial synthesis. Her contributions include several published papers and presentations at international conferences. Known for her strong communication skills, dedication, and ability to work both independently and in teams, Arpitha is committed to furthering advancements in her field. Her research continues to impact the development of more efficient and sensitive detection methods in industrial chemistry.

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Strengths for the Award

  1. Relevant Research Experience: Arpitha S. B. has conducted significant research in electrochemical sensors, specifically targeting biomolecules and organic pollutants. Her work includes developing advanced sensing materials and methodologies, demonstrating a strong grasp of electrochemistry and nanomaterials.
  2. Publications: She has several publications in reputable journals, showcasing her contributions to the field. Notable works include:
    • Inorganic Chemistry Communications (2023) on ZnO/Co3O4 nanocomposite sensors.
    • Sensing Technology (2023) on poly(nigrosine) modified electrodes.
    • Microchemical Journal (2024) on CuO/MgO nanocomposites.
    • Several communicated papers are under review in well-regarded journals.
  3. Conference Participation: Arpitha has actively participated in both international and national conferences, presenting her research and receiving recognition for her oral presentation. This demonstrates her engagement with the scientific community and her ability to effectively communicate her research.
  4. Awards and Recognition: She received the Best Oral Presentation award at the International e-Conference on Recent Advances and Innovations in Applied Sciences (RAIAS-2023), indicating that her work is highly regarded by peers.
  5. Educational Background and Teaching Experience: With a solid educational foundation in industrial chemistry and experience as a guest faculty, she has demonstrated both academic and practical expertise in her field.

Areas for Improvement

  1. Broader Research Scope: Expanding her research to include more diverse applications of her electrochemical sensors could enhance her profile. Integrating interdisciplinary approaches might also broaden the impact of her work.
  2. Collaborations and Networking: Increasing collaborations with researchers from other institutions or industries could provide new perspectives and opportunities for her research to be applied in different contexts.
  3. Grant and Funding Acquisitions: Pursuing more research grants and funding opportunities could support her work and provide additional resources for advanced projects.

Education 

Arpitha S B completed her BSc in Physics, Chemistry, and Mathematics (PCM) at Sahyadri Science College, Shivamogga, in 2018. She pursued an MSc in Industrial Chemistry at Kuvempu University, graduating in 2020. Currently, Arpitha is in the final stages of her PhD at Kuvempu University, with her research focusing on the development of electrochemical sensors. Her doctoral work involves significant research in electrochemistry, nanomaterials, and sensor technologies, supervised by Prof. B.E. Kumara Swamy. Arpitha’s educational journey has provided her with a robust foundation in physical chemistry, organic chemistry, and nanoscience, contributing to her expertise in the synthesis and characterization of nanomaterials and electrochemical sensor development.

Experience 

Arpitha S B began her teaching career as a Guest Faculty in the Department of Industrial Chemistry at Kuvempu University from 2020 to 2021, where she taught postgraduate students. Her research experience as a PhD Scholar at Kuvempu University spans from 2021 to 2024, with a focus on developing electrochemical sensors and synthesizing nanomaterials. Her work includes the preparation of modified electrodes and voltammetric analysis, contributing to the advancement of sensor technologies for detecting biomolecules and organic pollutants. Arpitha has actively participated in numerous national and international conferences, presenting her research findings and earning recognition for her oral presentations. Her practical experience is complemented by additional qualifications in computer applications, enhancing her technical capabilities in her research endeavors.

Research Focus 

Arpitha S B’s research focuses on the development of electrochemical sensors for detecting biomolecules and organic pollutants. Her work involves synthesizing and characterizing nanomaterials, and preparing modified electrodes to enhance sensor performance. Key areas of her research include electrochemistry, voltammetric analysis, and the development of advanced sensing platforms. Arpitha’s research aims to improve the sensitivity and efficiency of electrochemical sensors, addressing critical challenges in detecting trace levels of substances in various applications. Her contributions extend to the synthesis of nanocomposites and the exploration of novel materials for sensor development. This work has significant implications for environmental monitoring and biomedical applications, positioning her research at the forefront of advancements in electroanalytical methods.

Publication Top Notes

  1. Arpitha S B, B E Kumara Swamy, J.K. Shashikumara, An efficient electrochemical sensor based on ZnO/Co3O4 nanocomposite modified carbon paste electrode for the sensitive detection of hydroquinone and resorcinol, Inorganic Chemistry Communications 152, 110656 (2023) 📚🔬
  2. S. B. Arpitha, B. E. Kumara Swamy, Rukaya Banu, Electrochemical studies of catechol and hydroquinone at poly(nigrosine) modified carbon paste electrode: a cyclic voltammetric study, Sensing Technology 1 (2023) 2258789 📄🔋
  3. Arpitha S. B, Kumara Swamy B. E, Sharma S. C, Sanjana M. R, and Varamahalakshmi S, Voltammetric study of dopamine at tavaborole modified carbon paste electrode, Sensing Technology 2 (2024) 2305873 ⚡🔍
  4. S. B. Arpitha, B. E. Kumara Swamy, Synthesis and electrochemical performances of CuO/MgO nanocomposite as a sensing platform for dopamine in the presence of ascorbic acid and uric acid, Microchemical Journal 206 (2024) 111584 📈🧪

Conclusion

Arpitha S. B. appears to be a strong candidate for the Best Researcher Award. Her research in electrochemical sensors is innovative and impactful, and her publications and conference presentations underscore her contributions to the field. While there are areas for potential growth, her current achievements and recognition highlight her as a promising researcher deserving of the award.