Ranga Subramanian | Physical Chemistry | Best Paper Award

Dr. Ranga Subramanian | Physical Chemistry | Best Paper Award 

Associate Professor, IIT Patna, India

Dr. Ranga Subramanian, an Associate Professor at IIT Patna, India, has been recognized for his outstanding contributions in Physical Chemistry with a prestigious Best Paper Award. His groundbreaking research has not only expanded the boundaries of knowledge but has also significantly impacted the field. With a keen focus on exploring complex chemical phenomena at the molecular level, Dr. Subramanian’s work epitomizes excellence and innovation. His dedication to advancing scientific understanding and his commitment to academic excellence serve as an inspiration to both his peers and students. Through his contributions, he continues to shape the future of Physical Chemistry and pave the way for groundbreaking discoveries.

Profile

Scupus

Academic Qualification

Dr. Ranga Subramanian pursued his academic journey with zeal and dedication, earning his Bachelor’s degree from Loyola College, Chennai, laying the foundation for his scholarly pursuits. He further honed his expertise by completing his Masters at the prestigious Indian Institute of Technology, Chennai, delving deeper into his field. Driven by a thirst for knowledge, he pursued his Ph.D. at Wesleyan University in Middletown, CT – 06457, where he immersed himself in advanced research and academic inquiry. 🎓 His educational trajectory reflects a commitment to excellence and a passion for learning, shaping him into the accomplished scholar and educator he is today.

Work Experience

Dr. Ranga Subramanian’s academic journey is characterized by a diverse range of experiences and esteemed positions. Beginning as a Visiting Assistant Professor at New College of Florida, USA, he embarked on his career trajectory, laying the groundwork for his scholarly endeavors. His pursuit of excellence led him to serve as an Assistant Professor at the Indian Institute of Technology Patna, where he made significant contributions to academia and research. Building upon his expertise, he further enriched his scholarly portfolio as a Post-Doctoral Fellow at Tulane University, New Orleans, LA, and later at the University of Arizona, Tucson, AZ. Through his multifaceted roles and unwavering dedication, Dr. Subramanian continues to inspire and shape the academic landscape with his invaluable contributions.

Selected Conference Presentations

Dr. Ranga Subramanian’s prolific contributions to theoretical chemistry and atmospheric science are underscored by his notable presentations and talks at prestigious conferences and symposiums worldwide. With invited talks at esteemed events such as the 19th Theoretical Chemistry Symposium (TCS 2023) and the 4th Indian Planetary Science Conference (IPSC-2023), he has delved into crucial topics like environmental assessment properties of oxygenated hydrofluorocarbons and thermodynamic properties of water clusters. His expertise extends to computational chemistry applications in atmospheric science, as evidenced by his engagement at the Centre for Advanced Computational Chemistry Studies, New Delhi. Dr. Subramanian’s groundbreaking research elucidates mechanisms, kinetics, and theoretical analyses vital to understanding atmospheric chemistry, earning him recognition and respect in academic circles globally.

Publications Top Notes

 

  1. “Theoretical investigation of the nature of hydrogen bonds and cooperativity effect in methanol-water and ethanol-water clusters” – 2024 – Arnab Patla, Jagannath Pal, Kanika Guleria, and Ranga Subramanian
  2. “Theoretical Investigation on Hydrogen Abstraction Reactions of Sulfur Compounds HSX(O)H and CH3SX(O)H (X = C, S) by OH Radicals” – 2023 – Kanika Guleria and Ranga Subramanian
  3. “Thermodynamic and Optical Properties of HCOOH(H2O)n and HCOOH(NH3)(H2O)n-1 Clusters at Various Temperatures and Pressures: A Computational Study” – 2023 – Arnab Patla and Ranga Subramanian
  4. “Chemically induced crosslinked enhanced emission of carbon polymer dots discerning healthy and cancer cells through pH-dependent tunable photoluminescence” – 2023 – Suman Nayak, Kanika Guleria, Abhik Sen, Subhrajeet Banerjee, Ranga Subramanian, and Prolay Das
  5. “Computational investigation on mechanisms and kinetics of gas-phase reactions of 4-hydroxy-2-pentanone (4H2P) with hydroxyl radicals and subsequent reactions of CH3C(O)CH2C•(OH)CH3 radical” – 2022 – Kanika Guleria and Ranga Subramanian
  6. “Absorption of Volatile Organic Compounds Toluene and Acetaldehyde in Choline Chloride-Based Deep Eutectic Solvents” – 2022 – Sandipa Indra, Ranga Subramanian, and Snehasis Daschakraborty
  7. “Quantum Chemical and Chemical Kinetic Investigation on Hydrogen Abstraction Reactions of CF3CF2C(O)OCH3 and CHF2CF2C(O)OCH3 with OH Radicals and Fate of Haloalkoxy Radicals” – 2022 – Kanika Guleria and Ranga Subramanian
  8. “Interaction of volatile organic compounds acetone and toluene with room temperature ionic liquid at the bulk and the liquid-vacuum interface” – 2021 – Sandipa Indra, Ranga Subramanian, and Snehasis Daschakraborty
  9. “Thermodynamic properties of Forming Methanol-Water and Ethanol-Water Clusters at Various Temperatures and Pressures and Implications for Atmospheric Chemistry: A DFT Study” – 2021 – Jagannath Pal, Arnab Patla, and Ranga Subramanian
  10. “Sodium and Lithium ions in aerosol: thermodynamic and rayleigh light scattering properties” – 2020 – Jagannath Pal, Pulagam Sai Teja, and Ranga Subramanian
  11. “The Gas Phase Structure of Ethynylferrocene using Microwave Spectroscopy” – 2005 – Ranga Subramanian, Chandana Karunatilaka, Kristen S. Keck, Stephen G. Kukolich
  12. “2-BUTYNOL: Torsional analysis of a molecule” – 2003 – Ranga Subramanian, Robert K. Bohn, and Stewart E. Novick
  13. “FT Microwave Structure and Nuclear Quadrupole Coupling Analysis of Six Isotopomers of the ArgonChlorocylcobutane van der Waals complex” – 2005 – Ranga Subramanian, J.M.Szarko, Stewart Szarko, Stewart W.C.Pringle