Mr. Andrei Putkov | Radiochemistry | Young Scientist Award
Mr. Andrei Putkov , NRC Kurchatov Institute , Russia
Andrei Putkov is a junior researcher at NRC “Kurchatov Institute,” specializing in radiochemistry, quantum chemistry, and X-ray spectroscopy. He earned his Ph.D. in 2023, following his Master’s degree from Moscow State University (2018). His research has led to groundbreaking findings in actinide oxides (AnO₂), where he demonstrated for the first time that the complex structure of X-ray spectra of valence electrons arises from the formation of outer valence (OVMO) and inner valence molecular orbitals (IVMO). His studies further proved the significant role of An 6p and O 2s electrons in IVMO formation and the direct involvement of An 5f-electrons in chemical bonding. Andrei has published 14 research papers in SCI and Scopus-indexed journals and is an active contributor to a major Russian Science Foundation (RSF) project. His expertise extends to magnetoelectric properties and straintronic multilayer films, making valuable contributions to materials science and condensed matter physics.
Professional Profile :
Summary of Suitability for Award:
Dr. Andrei Putkov is highly suitable for the “Young Scientist Award”, given his outstanding research contributions in radiochemistry, quantum chemistry, and X-ray spectroscopy. His pioneering work on actinide oxides (AnO₂) has led to groundbreaking discoveries, such as the formation of outer (OVMO) and inner valence molecular orbitals (IVMO) and the direct involvement of An 5f-electrons in chemical bonding. His studies have not only deepened the understanding of molecular structures but have also set a new direction in actinide chemistry.Dr. Andrei Putkov’s exceptional scientific contributions, publication record, and leadership in funded research projects make him a strong contender for the “Young Scientist Award.” His work not only advances fundamental chemistry but also has practical applications in materials science. Given his innovative approach, scientific impact, and early career achievements, he meets and exceeds the criteria for this prestigious award.
🎓Education:
Dr. Andrei Putkov completed his Master’s degree (MSU, 2018) and later earned his Ph.D. (2023) in radiochemistry. His doctoral research focused on actinide oxides (AnO₂), where he provided a groundbreaking analysis of the electronic structure using X-ray spectroscopy. His studies demonstrated for the first time the formation of outer valence molecular orbitals (OVMO) and inner valence molecular orbitals (IVMO) in all AnO₂ compounds. He also established the high contribution of An 6p and O 2s electrons to IVMO formation and the direct involvement of An 5f-electrons in chemical bonding. His academic training combined advanced quantum chemistry techniques, spectroscopy, and molecular orbital theory, shaping his expertise in materials science and electronic structure analysis. His educational background laid the foundation for his pioneering research in radiochemistry and X-ray spectroscopy, enabling him to contribute significantly to actinide chemistry and functional material development.
🏢Work Experience:
Dr. Andrei Putkov is a Junior Researcher at NRC “Kurchatov Institute”, where he conducts cutting-edge research on the electronic and magnetic properties of actinide compounds. He is a principal investigator in the Russian Science Foundation (RSF) project 23-43-10004, focusing on the synthesis, magnetism, and magnetoelectric properties of multilayer straintronic films on ferroelectric substrates. His expertise spans radiochemistry, quantum chemistry, and solid-state physics, making significant contributions to advanced material synthesis and characterization. Throughout his career, Dr. Putkov has collaborated with leading scientists in X-ray spectroscopy and quantum mechanics, refining novel experimental methods for analyzing electronic structure and chemical bonding. His extensive work in synchrotron radiation experiments, theoretical modeling, and spectroscopy has provided valuable insights into actinide materials. With 14 high-impact journal publications, he has demonstrated exceptional scientific rigor, innovation, and leadership, shaping the future of actinide research and advanced material applications.
🏅Awards:
Dr. Andrei Putkov has received multiple recognitions for his outstanding contributions to actinide chemistry, X-ray spectroscopy, and quantum chemistry. He is a recipient of prestigious research grants, including the Russian Science Foundation (RSF) award for his groundbreaking project on straintronic materials and magnetoelectric properties. His work has been acknowledged at international conferences and symposiums, where he has presented his pioneering discoveries in electronic structure analysis of actinide oxides. His contributions to molecular orbital theory and chemical bonding in heavy-element compounds have positioned him among the most promising young scientists in the field of radiochemistry. He has been invited for collaborations with leading institutions and research groups, further amplifying the global impact of his work. His research achievements, combined with his strong publication record and leadership in funded projects, make him a distinguished early-career scientist poised for further breakthroughs.
🔬Research Focus:
Dr. Andrei Putkov’s research is centered on radiochemistry, quantum chemistry, and X-ray spectroscopy, with a particular emphasis on actinide compounds and molecular orbital interactions. His groundbreaking studies have revealed the complex nature of electron spectra in actinide oxides (AnO₂), demonstrating the formation of outer (OVMO) and inner valence molecular orbitals (IVMO). He has proven the involvement of An 5f-electrons in chemical bonding, reshaping the understanding of actinide chemistry.In addition to fundamental research, Dr. Putkov is investigating straintronic multilayer films, focusing on their magnetic, electrical, and magnetoelectric properties. His expertise in synchrotron radiation and spectroscopy allows him to explore the electronic structure of functional materials, paving the way for novel applications in energy storage, quantum computing, and materials science. His interdisciplinary approach bridges theoretical quantum chemistry with experimental solid-state physics, contributing to next-generation electronic and magnetic materials.