Soorya Srinivasan | Physics and Astronomy | Best Researcher Award

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Dr. Soorya Srinivasan | Physics and Astronomy | Best Researcher Award

Post doctoral Researcher at Indian Institute of Technology, India

Dr. Soorya Srinivasan is a dedicated postdoctoral researcher specializing in 2D nanomaterials and metal oxide synthesis for applications in energy storage, electrochemical sensors, and photocatalysis. With a strong academic background in physics, Dr. Srinivasan has contributed significantly to cutting-edge research in materials science, particularly in developing advanced functional materials for sustainable energy solutions. His research is characterized by a multidisciplinary approach, integrating nanotechnology, electrochemistry, and material characterization techniques. He has authored several high-impact publications in reputed journals, demonstrating his expertise in experimental and applied physics. Dr. Srinivasan’s work extends beyond fundamental research, with potential applications in biomedical sensing, environmental remediation, and next-generation energy devices. His dedication to scientific advancements and collaborative research efforts make him a promising scholar in his field.

Professional Profile

Education

Dr. Soorya Srinivasan earned his Ph.D. in Physics from Bharathidasan University (T.B.M.L College), Tiruchirapalli, where he focused on nanomaterial synthesis and their electrochemical applications. His doctoral research explored the enhancement of energy storage performance using 2D MXene materials. He previously completed his Master of Science (M.Sc) in Physics at SASTRA Deemed University, Thanjavur, with a commendable CGPA of 8.04. His strong academic foundation in physics began with a Bachelor of Science (B.Sc) degree from Bharathidasan University, where he developed an interest in material sciences and electrochemical applications. Dr. Srinivasan consistently demonstrated academic excellence, securing 89.5% in his Higher Secondary Certificate (HSC) and 95% in his Secondary School Leaving Certificate (SSLC). His educational journey reflects a strong commitment to scientific exploration and technical expertise, forming the backbone of his research pursuits in energy storage and sensor technologies.

Professional Experience

Dr. Soorya Srinivasan is currently a postdoctoral researcher specializing in the synthesis and characterization of 2D nanomaterials and metal oxides for energy storage and sensor applications. Throughout his research career, he has actively contributed to various projects involving lithium–sulfur batteries, electrochemical sensors, and photocatalysis, collaborating with esteemed researchers. His experience includes extensive work on electrochemical characterization techniques, material functionalization, and advanced microscopy analysis. He has been involved in multiple interdisciplinary studies, exploring applications of nanomaterials in biomedical and environmental fields. As an active researcher, he has co-authored numerous peer-reviewed publications, participated in international conferences, and contributed to academic discussions on emerging nanomaterials. His expertise in material synthesis and energy-related applications has positioned him as a valuable asset in the field of experimental physics and applied nanotechnology.

Research Interests

Dr. Soorya Srinivasan’s research focuses on the development of novel nanomaterials for energy storage, electrochemical sensors, and environmental applications. His primary area of expertise lies in 2D materials such as MXenes, transition metal oxides, and composite nanostructures that enhance electrochemical performance. He is particularly interested in improving lithium–sulfur batteries, supercapacitors, and hybrid energy storage devices by designing efficient electrode materials. Additionally, his research extends to electrochemical sensing for detecting environmental pollutants and biomedical applications, where modified nanomaterials play a crucial role. Dr. Srinivasan is also passionate about photocatalysis, working on materials that contribute to sustainable environmental remediation. His work aims to bridge the gap between fundamental material science and real-world applications, paving the way for innovative technologies in energy and sensor development. His multidisciplinary research approach ensures impactful contributions across physics, chemistry, and engineering domains.

Awards and Honors

Dr. Soorya Srinivasan has received recognition for his outstanding contributions to materials science and electrochemistry through various academic honors and research achievements. His publications in high-impact journals have garnered significant citations, reflecting the impact of his work in the scientific community. He has been acknowledged for his research excellence with a strong h-index and i10-index, highlighting his scholarly influence. Additionally, he has actively participated in national and international conferences, receiving accolades for his presentations on nanomaterial-based energy storage and sensor applications. His contributions to electrochemical sensing and photocatalysis have positioned him as an emerging researcher in the field. While continuing his research journey, Dr. Srinivasan strives to achieve further recognition through prestigious grants, fellowships, and collaborations. His dedication to scientific innovation and commitment to advancing nanomaterial applications underscore his potential as a leading researcher in energy and environmental sciences.

Conclusion

Dr. Soorya Srinivasan demonstrates a strong research profile with impactful contributions in nanomaterials and electrochemical applications. The publication record and citation metrics indicate significant academic influence. With additional focus on funding acquisition, industrial collaborations, and international outreach, Dr. Srinivasan would be a highly competitive candidate for the Best Researcher Award.

Publications Top Noted

  • M. Jothibas, M., A. Mathivanan, Agalya, S. Srinivasan, Soorya

    • Year: 2025
    • Title: Interfacial contact in CuCo₂O₄ hybrid nanocomposite and its role in improved electrochemical charge retention
    • Journal: Inorganic Chemistry Communications
    • Citations: 0

  • M. Jothibas, M., P.A. David, P. Abishake, S. Srinivasan, Soorya, P. Emerson, Paulson, A. Mathivanan, Agalya

    • Year: 2025
    • Title: A study on the facile synthesis of Cu-influenced organic framework and their characteristic properties
    • Journal: Journal of Molecular Structure
    • Citations: 0

 

Chenhan Liu | Astronomy | Best Researcher Award

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Prof Dr. Chenhan Liu | Astronomy | Best Researcher Award

Professor, Nanjing Normal University, China

Chenhan Liu is reachable at +86 15365085050 or via email at chenhanliu@njnu.edu.cn and liuchenhan_020@126.com. Currently affiliated with Nanjing Normal University, he brings expertise and dedication to his academic pursuits. 📞📧

Profile

scopus

Education

From 2016 to 2018, I pursued a Visiting Ph.D. program at the esteemed University of California, Berkeley, enriching my academic journey. Prior to that, I completed my Ph.D. from Southeast University, spanning from September 2012 to July 2019, where I honed my research skills and expertise. My academic journey commenced with my undergraduate studies at Southeast University from September 2008 to June 2012, where I secured a commendable ranking of 3 out of 200. 🎓📚

Experience

Since February 2024, I have proudly served as a Professor at Nanjing Normal University, where I continue to contribute to the academic community through teaching and research. Prior to this role, from July 2023 to January 2024, I held the position of Associate Professor at the same institution, furthering my commitment to excellence in education. Beginning my academic career, I joined Nanjing Normal University as an Assistant Professor in July 2020, where I laid the foundation for my academic endeavors and passion for teaching. 🎓📚

Research

He  research focuses on nanoscale heat transfer and interfacial thermal transport, delving into the intricate mechanisms that govern thermal management. From exploring thermal switches to investigating electrocaloric cooling, He aim to unravel the complexities of heat transfer at the smallest scales. Leveraging machine learning techniques, he seek to enhance our understanding of thermal phenomena and develop innovative solutions for efficient thermal management systems. Through my work, He strive to contribute to advancements in diverse fields, from electronics to renewable energy, with a vision of harnessing thermal energy for sustainable technological progress. 🔥⚙️🧠

Skills

He  research encompasses a broad spectrum of techniques and methodologies, including FDTR, TDTR, magnetron sputtering, molecular dynamics simulation, first-principles calculation, atomic Green’s function, phonon wave packet method, and more. Through the fusion of these diverse approaches, he  delve into the intricacies of materials science and thermal transport phenomena. From exploring nanoscale heat transfer to investigating the behavior of phonons in complex structures, he aim to unravel fundamental principles and pave the way for innovative advancements. With a passion for pushing the boundaries of knowledge, he seek to contribute to the development of cutting-edge technologies and sustainable solutions. 🔬🚀

Awards

Honored to hold the prestigious title of Vebleo Fellow, recognizing my contributions and dedication to advancing research in my field. Additionally, my work has been acknowledged with the distinction of Best Poster at an international conference, showcasing the quality and impact of my research on a global stage. Furthermore, He have received a National Scholarship for Doctoral Students, underscoring my academic excellence and commitment to scholarly pursuits. Moreover,He  proud to have secured the Third Prize in the National Digital Model Competition, demonstrating my proficiency in digital innovation and creativity. 🏆🌍🎓

Publications Top Notes

Four-phonon and normal scattering in 2D hexagonal structures” by G. Sun, J. Ma, C. Liu, T.-H. Liu, X. Luo. Published in the International Journal of Heat and Mass Transfer, 2023. Cited by 2.

Phonon entropy engineering for caloric cooling” by C. Liu, Y. Si, M. Hao, G. Zhang, Y. Chen. Published in Applied Physics Reviews, 2023. Cited by 1.

“Hexagonal Close-Packed Polar-Skyrmion Lattice in Ultrathin Ferroelectric PbTiO3 Films” by S. Yuan, Z. Chen, S. Prokhorenko, S. Das, L.W. Martin. Published in Physical Review Letters, 2023. Cited by 6.

“Effects of magnetic ordering on structural stability and phonon transport in monolayer Td-VX2 (X=Se, I)” by C. Wu, C. Liu, Y. Tao, Y. Chen. Published in Physics Letters, Section A: General, Atomic and Solid State Physics, 2023. Cited by 2.