Tianlei Zhang | Physical chemistry | Best Researcher Award

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Prof. Tianlei Zhang | Physical chemistry | Best Researcher Award 

Shaanxi University of Technology | China

AUTHOR PROFILE

EARLY ACADEMIC PURSUITS

Prof. Tianlei Zhang graduated from Shaanxi Normal University in June 2013, majoring in physical chemistry. During his early academic career, he demonstrated a strong foundation in the principles of physical chemistry, which set the stage for his later research endeavors. His rigorous academic training equipped him with the necessary skills and knowledge to tackle complex problems in the field of atmospheric chemistry and microdynamic mechanisms.

PROFESSIONAL ENDEAVORS

Throughout his professional career, Prof. Zhang has been involved in several high-profile research projects. He has been the recipient of one youth project (21603132) and one upper-level project (22073059) from the National Natural Science Foundation of China. Additionally, he secured a project (2019JM-336) from the Natural Science Foundation of Shaanxi Province and an industrial development project from the Department of Education of Shaanxi Province. His professional work focuses on the atmospheric behavior of chemical species, the interactions at the air-water interface, and the nucleation of reaction products, which are central themes in physical chemistry.

CONTRIBUTIONS AND RESEARCH FOCUS

Prof. Zhang's research employs a theoretical approach that combines quantum chemistry and first-principles molecular dynamics simulation. This methodology has been pivotal in simulating the physicochemical microreaction mechanisms and kinetics-related properties of Criegee intermediates and nitrogen/sulfur oxides in both the gas phase and at the air-water interface. His studies reveal how water molecules and acid/base molecules influence these microreaction mechanisms, providing insights into longstanding scientific questions. This research is significant in the field of physical chemistry, particularly in understanding the fundamental processes that occur in atmospheric chemistry.

IMPACT AND INFLUENCE

In the past five years, Prof. Zhang has published 25 SCI research papers in mainstream journals as the first or corresponding author, including one top-tier SCI Region I paper and 16 SCI Region II papers. His work has contributed significantly to the understanding of microdynamic mechanisms and chemical processes at the molecular level. The impact of his research is reflected in the numerous citations and recognition he has received from the scientific community. His findings have advanced the field of physical chemistry and provided a deeper understanding of atmospheric chemical processes.

ACADEMIC CITATIONS

Prof. Zhang's extensive publication record and the high citation rate of his papers underscore the influence of his research in the scientific community. His studies on the involvement of water molecules and acid/base molecules in microreaction mechanisms have been widely cited, highlighting their importance in resolving complex chemical interactions in atmospheric systems. These contributions are a testament to his expertise and the value of his work in physical chemistry.

LEGACY AND FUTURE CONTRIBUTIONS

Looking forward, Prof. Zhang aims to continue his research on the microdynamic mechanisms of atmospheric chemical reactions. His future work will likely delve deeper into the interactions at the air-water interface and the role of various molecules in these processes. Through his innovative approaches and dedication to uncovering fundamental chemical processes, Prof. Zhang is poised to leave a lasting legacy in the field of physical chemistry, contributing to advancements in environmental chemistry and molecular dynamics.

PHYSICAL CHEMISTRY 

Prof. Zhang's research revolves around key concepts in physical chemistry such as atmospheric behavior, air-water interface interactions, product nucleation, chemical processes, and microdynamic mechanisms. These keywords encapsulate the essence of his work and highlight the interdisciplinary nature of his research, bridging the gap between theoretical studies and practical applications in atmospheric chemistry.

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Umesh Yadava | Quantum mechanical calculations | Best Researcher Award

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Dr. Umesh Yadava | Quantum mechanical calculations | Best Researcher Award 

Deen Dayal Upadhyaya Gorakhpur University | India

AUTHOR PROFILE

EARLY ACADEMIC PURSUITS

Dr. Umesh Yadava's academic journey began at Deen Dayal Upadhyay Gorakhpur University (U.P.), India, where he completed his B.Sc. in 1997 and M.Sc. in Physics in 1999. He further pursued a Ph.D. in Physics at the same institution, in collaboration with CDRI, Lucknow, and successfully completed it in 2010. His early academic pursuits were marked by a strong focus on physics, laying a solid foundation for his future research in X-ray crystallography, molecular modeling, and quantum mechanical calculations.

PROFESSIONAL ENDEAVORS

Dr. Yadava's professional career is distinguished by a blend of teaching and research roles. He started as a Junior Research Fellow at MSB Division, CDRI, Lucknow (2000-2001), and later served as a lecturer at the Department of Physics, MGPG College, Gorakhpur (2001-2003). He then joined DDU Gorakhpur University as an Assistant Professor (2003-2013) and later as an Associate Professor (2013-2016). Since 2016, he has been a Professor in the Department of Physics at DDU Gorakhpur University. His post-doctoral fellowship at Albert Einstein College of Medicine, Bronx, New York (2014-2015), further enriched his research experience.

CONTRIBUTIONS AND RESEARCH FOCUS

Dr. Yadava's research interests include X-ray crystallography, molecular modeling, and quantum mechanical calculations. He has led several significant research projects, including a UGC Minor Research Project (2006-2008), a DST Fast Track Project (2011-2014) with an amount mobilized of Rs. 22 Lac, and the UGC's Raman Fellowship award (2014-15) with Rs. 24 Lac. His current major research project under CST, UP, mobilized Rs. 12 Lac for the period 2023-2026. His research has contributed to advancements in understanding molecular structures and quantum mechanical phenomena.

CITATIONS

  • Citations   1338
  • h-index     21
  • i10-index  38

IMPACT AND INFLUENCE

Dr. Yadava's work has had a substantial impact on the field of physics, particularly in the areas of X-ray crystallography and quantum mechanical calculations. His research has been recognized through various fellowships and awards, including the Raman Fellowship for Post-doctoral Studies in the USA awarded by UGC, New Delhi (2014), the Young Scientist award by DST, New Delhi (2011), and the Summer Research Fellowship jointly awarded by IAS, INSA, and NASI (2011). He has delivered numerous invited talks at national and international conferences, seminars, symposia, and workshops.

ACADEMIC CITATIONS

Dr. Yadava's research contributions have been widely cited in academic circles, underscoring the significance of his work in the scientific community. His studies on molecular modeling and quantum mechanical calculations have provided valuable insights into the behavior of complex molecular systems, influencing subsequent research in these areas.

LEGACY AND FUTURE CONTRIBUTIONS

Dr. Umesh Yadava's legacy in the field of physics is marked by his dedication to teaching, research, and administrative responsibilities. As the Director of the Institute of Engineering and Technology at DDU Gorakhpur University since 2023, he continues to shape the future of engineering education. His role as Warden of Sant Kabir Hostel and Program Officer of NSS (Shastri Unit) reflects his commitment to student welfare and community service. With life memberships in several prestigious scientific associations, including the Indian Crystallographic Association, Indian Biophysical Society, American Crystallographic Association, and Indian Science Congress Association, Dr. Yadava remains an influential figure in the scientific community.

QUANTUM MECHANICAL CALCULATIONS 

Dr. Yadava's expertise in quantum mechanical calculations has been a cornerstone of his research. His work in this area has not only advanced the understanding of molecular and atomic interactions but also paved the way for future innovations in material science and physics. The keywords associated with his research—quantum mechanical calculations, X-ray crystallography, and molecular modeling—highlight the core areas of his contributions and emphasize his role in pushing the boundaries of scientific knowledge.

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