Dr. Anna Stepashkina | Polymer composites | Best Researcher Award

Dr. Anna Stepashkina, Zhejiang Lab, China

Dr. Anna S. Stepashkina is a distinguished researcher in materials science and artificial intelligence applications. She earned her PhD in Technical Sciences from St. Petersburg State University of Industrial Technologies and Design, focusing on electrical and thermal conductivity in polymer composites. Currently a Research Expert at Zhejiang Lab in China, she specializes in finite element analysis, machine learning, and 3D-printing materials. Previously, she served as an Associate Professor and AI Lab Head at the State University of Aerospace Instrumentation, contributing to AI in education. With a strong background in computational materials science, Dr. Stepashkina has authored numerous publications on polymer composites, quantum dots, and electromagnetic shielding. She is fluent in Russian, English, Chinese, Serbian, and Norwegian. Her outstanding contributions to higher education and AI integration have earned her prestigious awards, including the 2022 St. Petersburg Government Award.

Education 🎓

Dr. Stepashkina obtained her PhD in Technical Sciences from St. Petersburg State University of Industrial Technologies and Design (2015), where she researched the electrical and thermal conductivity of polymer composites. She completed her B.S. and M.S. at Peter the Great St. Petersburg Polytechnic University (2006–2012), focusing on non-radioactive energy transfer between quantum dots for medical applications. Her expertise spans physics, materials science, and computational modeling, shaping her multidisciplinary research career.

Experience 💼

Dr. Stepashkina is a Research Expert at Zhejiang Lab in China, applying AI and machine learning to materials science and developing 3D-printing alloys. She previously served as Associate Professor, Deputy Head of the Department, and AI Lab Head at the State University of Aerospace Instrumentation, leading global AI education initiatives. Her past roles include lecturer positions at Peter the Great St. Petersburg Polytechnic University and Mozhaisky Military Space Academy, focusing on physics, metrology, and engineering. She has also worked as an FEA engineer, metrology specialist, and software engineer in various institutions.

Research Focus 🔬

Her research focuses on computational materials science, including electrical and thermal conductivity in polymer composites, quantum dot energy transfer, AI applications in material properties prediction, and 3D-printing innovations. She explores machine learning for material design, electromagnetic shielding, and polymer composite optimization.

Publication Top Notes

Ensemble regression method for predicting the dependence of electrical resistance on the elongation of polymer composite materials

Examining the Impact of Anisotropic Particle Orientation in a Polymer Matrix on the Electrical Properties of Composite Materials

Conclusion

Dr. Anna Stepashkina is a strong candidate for the Best Researcher Award. Her multidisciplinary expertise, leadership in AI-driven material science research, and significant contributions to both academic and applied material studies underscore her deserving candidacy. Recognizing her with this award would celebrate her innovative approach and dedication to scientific advancement.

Dr. Hamed Nazarpour Fard | Polymer composites | Best Researcher Award

Dr. Hamed Nazarpour Fard, Lorestan university, Iran

Dr. Hamed Nazarpour Fard is a polymer scientist with a Ph.D. from the University of Guilan, Iran, specializing in epoxy resin composites and nanocomposites. With a background in applied chemistry from Razi University, he conducted research at Lorestan University, focusing on polymer science from 2016 to 2023. His expertise spans from fundamental research to practical applications in various labs, contributing significantly to advancements in the field. 🧪 Passionate about exploring the properties and applications of polymers, Dr. Nazarpour Fard’s work continues to impact both academic and industrial spheres.

Publication Profile:

Google Scholar

Educational Qualifications:

Dr. Hamed Nazarpour Fard holds a Ph.D. in Polymer Science from the University of Guilan, Rasht, Iran, complemented by an M.Sc. in the same field from the University of Isfahan, Isfahan, Iran. His academic journey began with a B.Sc. in Applied Chemistry from Razi University in Kermanshah, Iran. During a sabbatical leave, he delved into research on Epoxy Resin Composites and Nanocomposites at the Department of Composites, Iran Polymer and Petrochemical Institute, Tehran, Iran. 🎓 Dr. Nazarpour Fard’s diverse educational background and focused research during his sabbatical underline his commitment to advancing the field of polymer science.

Professional Experience:

Dr. Hamed Nazarpour Fard’s professional journey showcases his dedication to advancing scientific knowledge. From 2016 to 2018, he served as a researcher at the Central Lab of Lorestan University in Khoram-Abad, Iran, where he honed his skills and contributed to various projects. Transitioning to the Polymer Lab from 2018 to 2020, he delved deeper into polymer research, exploring its applications and potential. Continuing his quest for innovation, Dr. Nazarpour Fard joined the Engineering Lab from 2020 to 2023, where he applied his expertise to interdisciplinary projects. 🛠️ His tenure at Lorestan University reflects his commitment to pushing the boundaries of scientific inquiry.

Research Focus:

Dr. Hamed Nazarpour Fard’s research focus predominantly centers on polymer science and its diverse applications. He has delved into various aspects, including the development of polymer-based electrodes for sensors and electrochemical applications, reinforcement of epoxy resin composites with carbon nanotubes, and the utilization of rice husk ash as a natural reinforcing filler. 🧪 His contributions extend to areas such as supercapacitors, hydrogen sensors, and gas pollutant removal using nanocomposites. Through his interdisciplinary approach, Dr. Nazarpour Fard continues to explore novel materials and techniques, enhancing our understanding of polymers and their potential in addressing contemporary challenges.