Brij Kumar Bareth | Computational Material Science | Best Researcher Award 

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Mr. Brij Kumar Bareth | Computational Material Science | Best Researcher Award 

Guru Ghasidas Vishwavidyalaya | India

AUTHOR PROFILE

EARLY ACADEMIC PURSUITS

Mr. Brij Kumar Bareth began his academic journey with a solid foundation in the sciences. He completed his 10th and 12th grades at Chhattisgarh H. S. School and Govt Multi H. S. School, respectively, in Bilaspur, Chhattisgarh. Demonstrating a keen interest in physics, he pursued a B.Sc. in Physics from Govt. E. Raghvendra Rao P.G. Science College, Bilaspur, followed by an M.Sc. in Physics from the same institution, where he excelled with a commendable score of 77.67%.

PROFESSIONAL ENDEAVORS

Mr. Bareth has accumulated valuable teaching experience as a Guest Lecturer. He served for six months at Govt. E. Raghvendra Rao P.G. Science College, Bilaspur, and for one year at Govt. Naveen College Pamgarh, Janjgir-Champa, Chhattisgarh. These roles allowed him to refine his teaching skills and share his passion for physics with undergraduate students. Currently, he is pursuing a Ph.D. in Physics at Guru Ghasidas Vishwavidyalaya, Bilaspur, focusing on the structural, electronic, and optical properties of 3D and 2D photovoltaic materials.

CONTRIBUTIONS AND RESEARCH FOCUS

Mr. Bareth’s research is centered on computational material science, where he investigates materials at the atomic scale using Density Functional Theory (DFT). His work aims to design compositions with desired properties for solar cell and optoelectronic applications. By utilizing state-of-the-art DFT-based codes such as CASTEP and various visualization software, he explores the mechanical, electronic, and optical properties of photovoltaic materials. His expertise in computational material science enables him to predict and design new materials with multifunctional capabilities.

IMPACT AND INFLUENCE

Mr. Bareth’s research has significant implications for the development of advanced photovoltaic and optoelectronic materials. His focus on computational material science allows for precise predictions and optimizations of material properties, contributing to the advancement of solar cell technology and the creation of more efficient, sustainable energy solutions. His work has the potential to influence the design and application of new materials in various technological fields.

ACADEMIC CITATIONS

Though still pursuing his Ph.D., Mr. Bareth’s research has started gaining recognition in academic circles. His expertise in using DFT and other simulation tools positions him as a valuable contributor to the field of computational material science. As he continues to publish his findings, his work is expected to receive more citations, reflecting its impact on the academic community.

LEGACY AND FUTURE CONTRIBUTIONS

Mr. Brij Kumar Bareth aims to leave a lasting legacy in the field of computational material science by continuing to explore and develop new materials for photovoltaic and optoelectronic applications. His future contributions are expected to drive innovations in renewable energy technologies and material science. As he completes his Ph.D. and advances his research, his work will likely play a crucial role in addressing global energy challenges and promoting sustainable technological development.

COMPUTATIONAL MATERIAL SCIENCE KEYWORDS

Mr. Bareth’s extensive research in computational material science has significantly advanced the understanding of photovoltaic and optoelectronic materials. His innovative work in computational material science involves the use of DFT-based codes and simulation packages to explore and optimize material properties. The future of computational material science looks promising with his continued contributions and research efforts.

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Sarantuya Lkhagvajav | Solid State Physics | Best Researcher Award

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Dr. Sarantuya Lkhagvajav | Solid State Physics | Best Researcher Award 

Institute of Physics and Technology | Mongolia 

AUTHOR PROFILE

EARLY ACADEMIC PURSUITS

Dr. Sarantuya Lkhagvajav’s academic journey began in Mongolia, where she attended Secondary School No. 2 in Arvaikheer, Uvurkhangai province, graduating in 2006. She then pursued higher education at the Mongolian University of Science and Technology, earning her Bachelor's degree in Engineering Physics with a thesis on "Theoretical Studies of Hydrogen Storage in Nanostructured AlCu, Al12Cu Systems," achieving the highest grade of "A". She continued her studies at the same university, obtaining a Master's degree in Engineering Physics, focusing on "Hydrogen Storage in Nanostructured Metal Clusters" and again earning an "A". Dr. Lkhagvajav completed her Ph.D. at the Mongolian National University, where her research on "Study of Spinel Lithium Titanate Anode for Lithium Ion Batteries" further established her expertise in Solid state physics.

PROFESSIONAL ENDEAVORS

Dr. Lkhagvajav's professional career has been closely tied to the Mongolian Academy of Sciences, where she has worked at the Institute of Physics and Technology since 2010. Initially a researcher in the Department of Material Science, she has advanced to become the Head of the Energy Research Laboratory. Her work involves leading various projects funded by the Ministry of Education and Culture of Mongolia. Key projects include the study of nanostructured materials, technological investigations of new nanoscale materials, preparation and characterization of rare earth-containing materials, and the development of lithium-ion battery technology. In 2022-2023, she led a project on the study and development of battery technology for application and recycling of spent NiMH batteries, highlighting her continued contributions to Solid state physics.

CITATIONS

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CONTRIBUTIONS AND RESEARCH FOCUS

Dr. Lkhagvajav's research focuses on Solid state physics, particularly in the areas of nanostructured materials and energy storage systems. Her work on hydrogen storage in nanostructured metal clusters and spinel lithium titanate anodes for lithium-ion batteries showcases her expertise in material science and nanotechnology. She has also contributed to the preparation and characterization of rare earth materials and the technological investigation of graphene-based new materials. Her leadership in projects investigating battery technology underscores her commitment to advancing energy research and sustainable technology solutions.

IMPACT AND INFLUENCE

Dr. Lkhagvajav’s impact on the field of Solid state physics is evident through her extensive research and numerous awards. She has been recognized for her contributions with awards such as the Honorary Certificate of the Mongolian Academy of Sciences and the Mitsubishi Corporation International Scholarship. Her participation in the 66th Lindau Nobel Laureate Meeting dedicated to Physics marks her recognition on a global scale. Additionally, her work has significantly influenced the development of nanomaterials and energy storage solutions in Mongolia.

ACADEMIC CITES

Throughout her career, Dr. Lkhagvajav has made notable contributions to academia, evidenced by her active role in mentoring and leading research projects. Her work has been cited in various academic publications, contributing to the broader scientific understanding of nanostructured materials and their applications in energy storage. Her leadership in research projects funded by the Mongolian government highlights her influence and the practical impact of her work on national technological advancements.

LEGACY AND FUTURE CONTRIBUTIONS

Dr. Lkhagvajav's legacy in the field of Solid state physics is characterized by her pioneering research and leadership in nanomaterials and energy storage systems. Her future contributions are likely to further advance the understanding and application of nanotechnology in sustainable energy solutions. As she continues to lead innovative projects and mentor the next generation of researchers, her influence will extend beyond Mongolia, contributing to global advancements in Solid state physics.

SOLID STATE PHYSICS

Dr. Lkhagvajav’s expertise in Solid state physics is reflected in her comprehensive research on hydrogen storage, lithium-ion batteries, and nanostructured materials. Her work on the technological investigation of lithium-ion batteries and the preparation of rare earth materials demonstrates her deep understanding of the physical properties and potential applications of solid-state materials. Her continued research and development in this field are expected to yield significant advancements in energy storage and material science.

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