Field of Study USA: Chemistry

Pran Teelucksingh

Pran Teelucksingh recently received his BS in Chemistry and a BA in health and human biology from Brown University, Rhode Island. His research interests include bacterial metabolites and natural products. At Brown, Pran conducted research in the Kizer Lab, where he worked on optimizing the recombinant expression of glycan antigens in E. coli. He also served as a head tutor and teaching assistant for the organic chemistry sequence. He is especially interested in the intersection between public health and science. During his earlier years of college, he spent time in several student-led public health organizations and also co-published a research article on campus accessibility.

Outside of work, Pran enjoys hiking, baking, gardening, reading visual novels, and playing the trumpet and RPG video games.

Pran’s Fulbright-Nehru project is seeking to uncover novel antibiotic scaffolds and producers that can serve as the foundation for novel antimicrobial therapies. The research involves screening natural product extracts for bioactivity against Gram-negative and Gram-positive bacteria, identifying a bioactive extract, purifying the metabolite, and then characterizing the metabolite’s activity toward drug-resistant bacteria. The study is also mapping the biosynthetic gene cluster of such a metabolite by using the bioinformatic tool antiSMASH.

Sachin Handa

Dr. Sachin Handa is MizzouForward Faculty and a tenured associate professor of chemistry at the University of Missouri in Columbia. Earlier, at the University of Louisville, he had served as an assistant professor before being promoted to the position of associate professor. He earned his PhD in chemistry from Oklahoma State University and subsequently conducted postdoctoral research at the University of California, Santa Barbara.

Dr. Handa’s research lies at the intersection of synthesis, material chemistry, energy, nanocatalysis, photochemistry, and electrocatalysis. His work is recognized for its innovative approaches to sustainable chemistry, particularly in the development of environmentally benign catalytic systems. He has authored over 85 peer-reviewed publications, including papers in high-impact journals such as Science, Nature Communications, JACS Au, ACS Catalysis, Advanced Functional Materials, and Angewandte Chemie. His notable research contributions include advancements in micelle-driven electrocatalysis, ligand design for sustainable catalysis, and nanoparticle-mediated transformations in aqueous media. Many of his research products are commercialized by Sigma-Aldrich.

His excellence in research and commitment to green chemistry have earned him numerous accolades, including the prestigious NSF CAREER Award and the ACS Peter J. Dunn Award for Green Chemistry and Engineering Impact in the Pharmaceutical Industry. He has also received the Ralph E. Powe Junior Faculty Enhancement Award in Physical Sciences. He currently serves as an associate editor for ACS Sustainable Chemistry & Engineering and holds editorial board positions with Green Chemistry Letters and Reviews and Molecules. He is also a member of the ACS Green Chemistry & Engineering Conference Advisory Committee.

Dr. Handa’s Fulbright-Nehru project is developing a sustainable electrocatalytic-electromicellar method for synthesizing fluorinated heterocycles, which are key pharmaceutical intermediates. By using electrons as clean reductants and aqueous micelles from benign designer amphiphiles as solvents and electrolytes, the research aims to minimize environmental impact and improve atom economy. The project is also exploring the delayed adoption of green chemistry in India’s pharmaceutical sector. The fellowship integrates teaching a graduate course on green chemistry and catalysis, fostering international collaboration, and promoting sustainable practices in pharmaceutical manufacturing through academic–industry partnerships and student engagement.

Arun Yethiraj

Dr. Arun Yethiraj was born in India and received his BTech in chemical engineering from the Indian Institute of Technology Bombay. He received an MS from Louisiana State University, a PhD from North Carolina State University, working with Professor Carol Hall, and did postdoctoral research at the University of Illinois, working with Professor Kenneth Schweizer. He joined the faculty of the Department of Chemistry at the University of Wisconsin in 1993. His research interest is in the statistical mechanics of complex fluids, including polymers, surfactants, ionic liquids, and biopolymers.

His hobbies include tennis, guitar, and running.

“Active matter” refers to a class of systems that are composed of self-propelled entities that convert stored energy into directed motion. The goal of Dr. Yethiraj’s Fulbright-Nehru research is to obtain a fundamental understanding of active matter in complex environments. His research project at the Tata Institute of Fundamental Research is using computational studies with machine learning analyses to reproduce experimental studies on robotic and molecular systems in order to obtain a fundamental understanding of the effect of crowding and noise on active processes, thereby allowing for the elucidation of transport mechanisms in other systems.

Jayaraman Sivaguru

Dr. Jayaraman Sivaguru is a distinguished university professor at Bowling Green State University (BGSU), Ohio. His recognitions include the 2008 NSF CAREER award, the 2010 Grammaticakis-Neumann Prize from the Swiss Chemical Society, and the young investigator awards from the Inter-American Photochemical Society (2011) and Sigma-Xi (2012). Besides, he won the 2012 Peltier Award for Innovation in Teaching from NDSU. He was a visiting young professor at the Global Centre for Excellence, Osaka University, and was also visiting fellow of the Chinese Academy of Sciences under the President’s International Fellowship Initiative. He serves as the American editor for the Journal of Photochemistry and Photobiology A: Chemistry and as the co-editor-in-chief of the Journal of Photochemistry and Photobiology. In 2021, he was awarded the Honda-Fujishima Lectureship by the Japanese Photochemistry Association for outstanding achievement in photochemistry. In 2023, he received the Olscamp Award from BGSU. In 2025, he was named as the 48th Probst Lecturer at SIUE. Dr. Sivaguru is a member of the International Organizing Committee for the IAPS-2026 meeting in Sao Paulo and will also co-chair the 2027 Gordon Conference on Photochemistry.

His research interests include: uncovering new excited state chemical reactivity; light-induced axial to central chiral transfer; asymmetric organo-photocatalysis; supramolecular photocatalysis with water-soluble nanocontainers; light-responsive materials for polymer circularity; development of high-efficiency photoinitiators; and designing light-initiated strategies for eye protection and ophthalmic applications (e.g. contact lenses and other eyewear).

Dr. Sivaguru is passionate about helping students to gravitate toward STEM disciplines. Toward this, in 2007, he launched an outreach program called PICNICS (Parents Involvement with Children Nurturing Intellectual Curiosity in Sciences).

For his Fulbright-Nehru project, Prof. Sivaguru is collaborating with Prof. N. Jayaraman of the Indian Institute of Science on photochemical aspects within dendritic systems. He is also collaborating with Prof. Ashok Mishra at the Indian Institute of Technology Madras on photophysical studies. Besides, Prof. Sivaguru is holding classes on photochemistry. He is also evaluating the feasibility of adapting PICNICS to an Indian setting.

Ram Mohan

Prof. Ram Mohan earned a bachelor’s (honors) in chemistry from Hansraj College in Delhi; a master’s in organic chemistry from the University of Delhi; and a doctorate in organic chemistry from the University of Maryland, Baltimore. He did postdoctoral work at the University of Illinois Urbana-Champaign and started his career at Illinois Wesleyan University (IWU) in 1996 where he is currently the Wendell and Loretta Hess Professor of Chemistry. Professor Mohan has taught a variety of courses at IWU ranging from nursing chemistry to organic chemistry, advanced organic chemistry, and a physical science course titled “Better Living through Green Chemistry”. Due to his efforts, there has been a significant reduction in the waste generated in the chemistry labs at IWU and also in the use of toxic chemicals; he has also been responsible for the greening of the labs. His research focuses on green organic synthesis using bismuth compounds. His contributions in this field have led to a surge in popularity of bismuth compounds worldwide.

Prof. Mohan has published 66 manuscripts, the majority co-authored by IWU students, and many highly cited. He has also facilitated the receipt of over USD 1 million in external funding. Besides, he has given over 130 talks in 16 countries. He is also the recipient of several awards, including: the International Union of Pure and Applied Chemistry Young Observer Award; the University of Maryland, Baltimore County 2002 Distinguished Alumni Award; the Henry Dreyfus Teacher-Scholar Award; the Pfizer Pharmaceuticals Green Chemistry Award; the Chemist of the Year 2011 title; the Fulbright Teacher Scholar Award 2012; and the American Chemical Society’s Committee on Environmental Improvement Award for Incorporating Sustainability into Chemistry Education.

Prof. Mohan’s Fulbright-Nehru project is pursuing both teaching and research in India. At St. Joseph’s University in Bangalore, he is teaching a course on green chemistry, while in the research component, he is collaborating with Professor Chelvam Venkatesh at the Indian Institute of Technology Indore. The goal of the research is to develop environmentally friendly synthesis of molecules for HIV diagnosis. In addition, a lecture series titled “Better Living through the Practice of Green Chemistry” is being offered in many colleges and universities across India, especially in the rural areas.