Prof Dr.Roman Nikolaevich Yastrebinsky | digital recording | Best Researcher Award

Prof Dr.Roman Nikolaevich Yastrebinsky, Belgorod State Technological University Named after V.G. Shukhov, Russia

Evaluation for Research for Best Researcher Award: Yastrebinsky Roman

Summary of Suitability for the Award

Yastrebinsky Roman, born on November 26, 1975, in Belgorod, is a distinguished academic in the fields of chemistry, chemical engineering, and condensed matter physics. He holds a Doctor of Technical Sciences degree and serves as an Associate Professor at Belgorod State Technological University named after V.G. Shukhov. With over 23 years of scientific and pedagogical experience, Roman has contributed significantly to radiation safety at nuclear power facilities. His work has resulted in the development of innovative materials and technologies aimed at environmental protection from man-made impacts. Active in academic governance, he is the Chairman of the Dissertation Council in Condensed Matter Physics and a member of the Academic Council at his university. His research not only enhances academic knowledge but also has practical applications in nuclear energy safety.

Professional Profile

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Evaluation for Research for Best Researcher Award: Yastrebinsky Roman

Summary of Suitability for the Award

Dr. Yastrebinsky Roman is a highly accomplished researcher with extensive contributions to radiation safety, nuclear power facility protection, and the development of advanced materials for radiation shielding. His strong background in chemistry, condensed matter physics, and materials science is evident from his 23+ years of scientific and pedagogical experience at Belgorod State Technological University. His prolific research output includes 245 scientific publications, 64 of which are indexed in leading scientometric databases such as Web of Science (WoS) and Scopus. His expertise in radiation safety at nuclear power facilities aligns directly with the objectives of the Research for Best Researcher Award, which honors exceptional scientific achievements with real-world impact.

Education

Yastrebinsky Roman earned his higher education degree in a technical field, culminating in the attainment of his Doctor of Technical Sciences. His academic journey reflects a deep commitment to advancing knowledge in chemistry and materials science. Throughout his education, he developed a strong foundation in the principles of chemical engineering and condensed matter physics, which have become integral to his research focus. As an Associate Professor, he continues to impart his expertise to students at Belgorod State Technological University, where he actively participates in shaping the next generation of engineers and scientists. Roman’s educational background not only enhances his teaching methodologies but also informs his research approach, allowing him to bridge theoretical concepts with practical applications in radiation safety and environmental protection.

Experience

With nearly 24 years of scientific and pedagogical experience, Yastrebinsky Roman has built a prominent career at Belgorod State Technological University named after V.G. Shukhov. His primary responsibilities include teaching undergraduate and postgraduate students, conducting cutting-edge research, and contributing to academic governance. As Chairman of the Dissertation Council in Condensed Matter Physics, he oversees the evaluation of doctoral candidates, ensuring the highest standards of academic integrity and rigor. Roman’s extensive experience in the laboratory has led to significant advancements in radiation protection materials, particularly in the context of nuclear power facilities. His practical knowledge has been recognized through collaborations with industry leaders, resulting in the implementation of his research findings in real-world applications. This blend of academic and practical experience positions him as a leading figure in his field, influencing both scholarly research and industrial practices.

Awards and Honors

Yastrebinsky Roman has received numerous accolades for his contributions to science and education, reflecting his impact in the fields of radiation safety and materials science. His academic achievements are underscored by an h-index of 28 in RSCI and 10 in Scopus, signifying his extensive and influential publications. As a recognized expert in condensed matter physics, he has been invited to serve on various academic councils, enhancing the governance of scientific research in Russia. His significant contributions to radiation protection technologies have been implemented in regulatory frameworks and practices at prominent nuclear power facilities. Roman’s commitment to advancing knowledge in his field has been recognized through various grants and research funding, supporting his innovative projects. His involvement in patenting new composite materials further highlights his dedication to practical applications of scientific research, aiming to enhance safety in nuclear energy and environmental protection.

Research Focus

Yastrebinsky Roman’s research primarily revolves around ensuring radiation safety at nuclear power facilities and developing innovative materials for environmental protection against man-made impacts. His work encompasses the modification of surface properties of natural and synthetic materials to impart unique functionalities, particularly in the context of radiation shielding. Roman has pioneered methods for producing modified metal hydride materials, enhancing their thermal stability to protect against neutron radiation. His investigations also extend to polymer-based composites designed for resilience against electron and proton irradiation in space environments. By establishing interaction mechanisms of high-energy radiation with protective materials, he has developed simulation programs to predict material behavior under various conditions. The practical applications of his research have been implemented in the nuclear industry, contributing to the modernization of radiation protection measures. Through his work, Roman aims to advance both academic knowledge and industrial practices in the field of radiation safety.