Dr Shubham Sharma, Pfizer, United States
Dr. Shubham Sharma is a leading computational modeler with 8+ years of expertise in theoretical materials science, physics, and chemistry. Holding a Ph.D. in Chemical & Environmental Engineering from Brown University (2021), he specializes in atomistic modeling and solid-form design, notably working at Pfizer where he leads drug de-risking efforts. His research in catalysis, electrochemistry, and crystal structure predictions has earned him over 10 Pfizer Bravo awards. Dr. Sharma’s groundbreaking work is recognized globally, including invited talks at major conferences, advancing both pharmaceutical and renewable energy applications. π»π¬πβ‘
Publication Profile
Google Scholar
Education
This individual holds a PhD in Chemical & Environmental Engineering from Brown University, USA (2016-2021) π, where they conducted research under the guidance of Andrew A. Peterson π§βπ¬. Their academic journey began with a Bachelor of Technology (B. Tech) in Chemical Engineering from the Heritage Institute of Technology, India (2012-2016) π οΈ. With a strong foundation in chemical engineering, they have pursued advanced studies focusing on environmental solutions and sustainability π. Their education showcases a dedication to addressing global environmental challenges through innovative engineering approaches and cutting-edge research π±π.
Work Experience
Currently serving as a Senior Scientist in Computational Materials Science at Pfizer Inc. (July 2022 β present) π§βπ¬, this individual leads the Solid Form Design Center (SFDC) focused on de-risking potential drug molecules through advanced statistical and quantum mechanical modeling π. They contributed to the success of Zavegepant (Zavzpretβ’) and Rimegepant (Nurtecβ’) π. As a core member of the Crystal Structure Prediction team, they specialize in electronic structure theory, density functional theory, and atomistic modeling π§¬. They also collaborate with global industrial and academic partners, lead multiple research proposals, and mentor colleagues in computational science π¬π».
Selected conference presentations
Sharma has delivered numerous invited talks and presentations globally π. In 2024, they presented on multi-polymorphic systems at the Crystal Form Consortium Symposium (UK) and computational strategies in pharmaceutical research at UConn (US) and IISER (India) π§ͺ. Sharma also discussed electrocatalysis at the 8th Global Webinar on Materials Science & Engineering in 2023 π§βπ«. Other notable presentations include de-risking medicines at AAPS NERDG (2024) and several studies on oxygen reduction reactions and catalytic properties at AIChE, NECS, ECS, and MRS conferences π€. Their work spans computational modeling and applied research in materials science and electrocatalysis βοΈ.
Research Focus
The research focus of Sharma spans electrochemistry, catalysis, and materials science. Sharma investigates the design and stability of catalysts, particularly Pt-based and CoPt alloys, for fuel cells and oxygen reduction reactions (ORR) β‘οΈπ. His work includes dynamic stability, reaction barriers, and potential-controlled reactions, using advanced techniques like density functional theory (DFT) and experimental-theoretical integration. He also explores solid form derisking in pharmaceuticals π and carbon electrodes in redox flow batteries. Sharma’s studies contribute to cleaner energy and advanced catalytic systems ππ¬, emphasizing electrochemical stability and performance improvement in energy devices.
Publication Top Notes
Hard-magnet L10-CoPt nanoparticles advance fuel cell catalysis
Anisotropic Strain Tuning of L10Β Ternary Nanoparticles for Oxygen Reduction
Face-centered tetragonal (FCT) Fe and Co alloys of Pt as catalysts for the oxygen reduction reaction (ORR): A DFT study
Ordered CoPt oxygen reduction catalyst with high performance and durability
Metal dissolution from first principles: Potential-dependent kinetics and charge transfer
Assessment of carbon monoxide exposure in roadside food-vending shanties using coal cookstoves in Kolkata, India
Dynamic stability of Pt-based alloys for fuel-cell catalysts calculated from atomistics
Conclusion
Dr. Shubham Sharma’s innovative research in computational modeling and materials science, alongside his leadership in both academic and industrial collaborations, makes him an exceptional candidate for the Best Researcher Award. His contributions have not only advanced pharmaceutical drug design but also impacted renewable energy research, marking him as a distinguished leader in his field.