Researcher at KTH Royal Institute of Technology , Sweden
Deobrat Singh is a distinguished postdoctoral researcher at KTH Royal Institute of Technology in Sweden, specializing in Computational Condensed Matter and Many-Body Physics. His research encompasses various properties of 2D and 3D materials, focusing on applications in molecular electronics, energy storage, and sensing technologies. With an impressive educational background culminating in a Ph.D. in Physics, Deobrat has made significant strides in understanding the structural, electronic, and opto-electronic properties of advanced materials through computer simulations. His work has led to several publications in high-impact journals, contributing to the advancement of knowledge in materials science and engineering. Deobrat’s dedication to research and education reflects his commitment to fostering innovation in the scientific community. šš¬
Publication profile
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Education
Deobrat Singh earned his Ph.D. in Physics from a prominent institution, where he focused on “Ab initio study of two-dimensional materials for potential applications.” His academic journey began with a Masterās degree in Physics from S.V. National Institute of Technology, followed by a Bachelorās degree in Physics from M. L. K. P. G. College. Deobrat’s strong educational background laid the foundation for his expertise in materials science. Throughout his education, he honed his skills in computational methods and simulations, enabling him to explore complex physical systems. His rigorous training and commitment to academic excellence have equipped him with the knowledge and skills needed to excel in his research career. Deobrat’s educational path reflects his dedication to understanding and advancing the field of condensed matter physics. šš
Experience
Deobrat Singh has accumulated extensive research experience, beginning with his role as a postdoctoral researcher at KTH Royal Institute of Technology, where he investigates the properties of 2D and 3D materials using computational techniques. Prior to this, he worked at Uppsala University, contributing to materials theory and applications. He has also held academic positions as an Assistant Professor in various engineering colleges in India, where he taught undergraduate and graduate courses in physics and engineering. His responsibilities included conducting laboratory sessions, managing student research progress, and developing research facilities. Deobratās diverse experiences in both academia and research institutions have enriched his understanding of materials science, allowing him to make meaningful contributions to his field. His dedication to education and research exemplifies his commitment to advancing scientific knowledge. š«š
Awards and Honors
Deobrat Singh has received several prestigious awards and honors for his contributions to research and academia. Notably, he was recognized with the Young Achiever Award in January 2021 for his exceptional work presented at an international conference on nanomaterials. Additionally, he has secured research grants from esteemed institutions, including the Swedish Research Council and Olle Engkvists Stiftelse. His achievements also include being a Junior Research Fellow through the Council of Scientific and Industrial Research in India. These accolades reflect his commitment to excellence and innovation in materials research. Deobrat’s dedication to his work and his ability to produce high-quality research have established him as a promising researcher in his field. His recognition showcases his potential to continue making significant contributions to materials science. š„šļø
Research Focus
Deobrat Singh’s research focuses on Computational Condensed Matter and Many-Body Physics, with a particular emphasis on the properties of 2D and 3D materials. He employs advanced computational techniques to study structural, electronic, opto-electronic, and magnetic properties, aiming to uncover new applications in molecular electronics and energy storage technologies. His work involves understanding molecular adsorption, intermolecular interactions, and electronic transport calculations, which are crucial for developing next-generation batteries, sensors, and photovoltaic devices. Deobrat’s expertise in modeling complex materials allows him to investigate their potential for applications in thermoelectrics, nanogenerators, and photo/electrocatalysts. His research not only addresses fundamental scientific questions but also aims to contribute to sustainable technological advancements, showcasing the importance of materials science in addressing global challenges. āļøš
Conclusion
Deobrat Singh is a promising candidate for the Excellence in Research Award, given his significant contributions to the field of materials science through computational research. His strengths in utilizing advanced simulation techniques, coupled with a strong publication record, reflect his commitment to excellence in research. By addressing the identified areas for improvement, he can further enhance his impact on the scientific community and contribute to groundbreaking advancements in material technologies. His innovative work not only addresses contemporary challenges in energy and sensing applications but also inspires future research directions. š„š
Publication Top Notes
Title: Biophysical translational paradigm of polymeric nanoparticle: Embarked advancement to brain tumor therapy
Authors: Naser, S.S., Gupta, A., Choudhury, A., De, S., Verma, S.K.
Citations: 0
Year: 2024
Title: 2D SiP Nanosheets as Efficient and Multi-Time Reversible Nanosensor for Nitrogen-Containing Gases
Authors: Kumavat, T.L., Somaiya, R.N., Singh, D., Sonvane, Y.
Citations: 0
Year: 2024
Title: Fluorine-Terminated MXene as an Anode Material for Dual-Ion (Ca2+/Mg2+) Batteries with Rapid Diffusion Mobility
Authors: Jadav, R.P., Singh, D., Ahuja, R., Sonvane, Y.
Citations: 0
Year: 2024
Title: Detrimental consequences of micropolymers associated plasticizers on endocrinal disruption
Authors: Saha, U., Kumari, P., Ghosh, A., Suar, M., Verma, S.K.
Citations: 1
Year: 2024
Title: Molecular insights to in vitro biocompatibility of endodontic Pulpotec with macrophages determined by oxidative stress and apoptosis
Authors: Mohanty, A., Patro, S., Jha, E., Suar, M., Verma, S.K.
Citations: 0
Year: 2024
Title: Perilous paradigm of graphene oxide and its derivatives in biomedical applications: Insight to immunocompatibility
Authors: Ayreen, Z., Khatoon, U., Kirti, A., Suar, M., Verma, S.K.
Citations: 2
Year: 2024
Title: Proximal discrepancies in intrinsic atomic interaction determines comparative in vivo biotoxicity of Chlorpyrifos and 3,5,6-trichloro-2-pyridinol in embryonic zebrafish
Authors: Ghosh, A., Singh, S., Saha, U., Raina, V., Verma, S.K.
Citations: 1
Year: 2024
Title: The posterity of Zebrafish in paradigm of in vivo molecular toxicological profiling
Authors: Verma, S.K., Nandi, A., Sinha, A., Singh, D., Suar, M.
Citations: 2
Year: 2024
Title: Exploring the Potential of Substituted and Defected Magnesium Dichloride Monolayers for Optoelectronic Applications
Authors: Mahida, H., Patel, A., Singh, D., Sonvane, Y., Thakor, P.
Citations: 0
Year: 2024
Title: Unveiling the catalytic potential of two-dimensional boron nitride in lithiumāsulfur batteries
Authors: Khossossi, N., Singh, D., Essaoudi, I., Ahuja, R., Ainane, A.
Citations: 5
Year: 2024