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Rubia Hassan

Dr. Rubia Hassan is Project Scientist at the Indian Institute of Technology, Kanpur. She pursued her bachelor’s in metallurgical engineering from National Institute of Technology, Srinagar and her master’s and Ph.D. in materials science and engineering from Indian Institute of Technology Kanpur (IIT Kanpur). During her Ph.D., in 2018, she received Prime Minister Research Fellowship, to continue her work under the joint supervision of Prof. Kantesh Balani and Prof. Shobit Omar at IIT Kanpur. Her doctoral research was based on the study of Zirconium di-boride based ultra-high temperature ceramic composites for thermal protection system in hypersonic re-entry vehicles. Dr. Hassan has published several research articles in reputed international journals and has co-edited one book.

The ongoing search for new materials for desired future capabilities related to hypersonic re-entry flight, rocket propulsion, and lightweight armor has led to considerable attention to ultra-high temperature ceramics (UHTCs) for their potential use in extreme environments based on their superior properties. In this context, during her Fulbright-Nehru Postdoctoral Research fellowship, Dr. Hassan is focusing on the development of boride and carbide based high entropy ultra-high temperature ceramics.

Debanjan Konar

Dr. Debanjan Konar earned a Bachelor of Engineering in Computer Science and Engineering (CSE) from the University of Burdwan , in 2010, an MTech in CSE from the National Institute of Technical Teachers’ Training and Research (NITTTR), Kolkata , in 2012, and a PhD from the Indian Institute of Technology Delhi in New Delhi , in 2021. He is currently working as a postdoctoral researcher at the Helmholtz-Zentrum Dresden-Rossendorf (HZDR), Germany. Prior to this, Dr. Konar served as an Assistant Professor at Sikkim Manipal Institute of Technology, Sikkim , and SRM University-AP, Andhra Pradesh . His research interests include quantum machine learning (QML), hybrid classical-quantum neural networks, deep learning, and computer vision. He has authored several papers in prestigious computer science journals, conference proceedings, book chapters, and internationally renowned books. Dr. Konar received a National Scholarship in 2001 and a GATE Postgraduate Fellowship in 2010. He is an IEEE senior member and an ACM member. He also serves as an editor and a reviewer for several esteemed journals and international conferences.

Recently, Quantum Computing (QC) has been leveraged for machine learning with the expectation that the uncertainty inherent in QC may be used to great advantage in stochastic-based modelling , spurring new research on Noisy Intermediate-Scale Quantum (NISQ) devices. To exploit the advantages of stochastic-based modelling in QML research, Dr. Konar has proposed Spiking Quantum Neural Networks using hybrid classical-quantum algorithms with the merits of superposition states and amplitude encoding. Within this Fulbright-Nehru Postdoctoral Research Fellow ship, the proposed models will be extensively validated on various computer vision applications, including disguised facial recognition using the PennyLane Quantum Simulator with limited quantum hardware and supercomputing resources available at Purdue University, USA.

Sujata Singh

Dr. Sujata Singh is a technical analyst at Customized Energy Solutions Pvt. Ltd., an energy sector-based consulting firm, in association with Indian Energy Storage Alliance (IESA). She obtained her Ph.D. degree from the Indian Institute of Science, Bangalore. Her doctoral research focused on studying the microstructure-property correlation of High Entropy Alloy-Carbon Nanotubes composites. She received her master’s degree in metallurgical and materials engineering from the Indian Institute of Technology, Kharagpur, and bachelor’s degree from Birsa Institute of Technology, Sindri, Dhanbad.

Dr. Singh’s research interest is in the study of electrochemical behavior of advanced materials, understanding underlying electrochemistry in protective coatings/thin films, utilizing nanomaterials to achieve enhanced properties, electron microscopy, microstructure-property correlation, and failure analysis with applications in the field of corrosion and Lithium-Ion Battery. She has published several research articles in reputed international journals and received the Senior Research Fellowship issued by the Ministry of Human Resource and Development, Government of India. She also received an award for the best all-round performance in 2013.

As a Fulbright-Nehru Postdoctoral Research fellow, Dr. Singh is developing alternate battery technologies that enable sustainable, cost-effective, and reliable electrochemical energy storage. The focus of the study is to investigate new electrode architecture, exploring methods to mitigate issues such as capacity fading, mechanical degradation, dendrite formation and cyclability in Sodium-Antimony Intermetallic Battery. The project advances the field’s understanding of this promising energy storage technology.

Sujay Shekar Ganganakatte Chandrashekar

Dr. Sujay Shekar G. C. is an environmental researcher and a metaphysicist. He earned his bachelor’s degree (2015) in science from Sarada Vilas College, Mysuru, and his master’s degree (2017) in physics from St. Philomena’s College, Mysuru. He received his Ph.D. in Physics (2023) from the University of Mysore. In 2018, he worked as a university lecturer at Department of Science in Physics, University of Mysore, and later joined as an assistant professor in 2023 at RNSIT, Visvesvaraya Technological University. Currently, he is a member of the Board of Studies in Physics at St. Philomena’s College, and the Board of Examination in Physics at Karnataka State Open University and JSS Science and Technology University.

Dr. Sujay Shekar believes in understanding the natural world as a means of achieving spiritual enrichment. In this pursuit, he initiated his research on solar energy utilization to create a more sustainable future. He works in the field of physical chemistry and material science to develop advanced nanomaterials for cleaner and more efficient light energy conversion. Through his doctoral research projects, he contributed to semiconductor photoelectrochemistry by engineering nanomaterials for effective photocatalytic applications. He even demonstrated the usage of sunlight for more sustainable synthesis methods of functional materials. Many of his designed compounds exhibited better solar energy conversion efficiency and produced greener solar fuels.

As a Fulbright-Nehru Postdoctoral Research fellow at the University of Notre Dame, Notre Dame, Dr. Sujay Shekar is developing new photosystems for boosted photochemical tandem reactions and understand the underlying phenomena of charge dynamics.

Sucharita Sen

Dr. Sucharita Sen is interested in the politics of everyday life beyond the conventional epicenters of power, with her research methodologically anchored at the intersection of history and political anthropology. She completed her Ph.D. in 2022 from Victoria University of Wellington, New Zealand. Dr. Sen is a recipient of the Walter L. Arnstein prize for the Best Ph.D. Paper at the 68th annual Midwest conference on British Studies (a regional affiliate of the North American conference on British Studies), 2021, the prize for the Best Ph.D. Paper at the 2021 biennial conference of the New Zealand Historical Association, and a Certificate of Excellence from Oxford University Press (India) for being the winning contributor of the December (2021) issue of Tell Me Your Story Review. Her works have appeared in South Asia: Journal of South Asian Studies, Contemporary South Asia, Society and Culture in South Asia and Rupkatha Journal on Interdisciplinary Studies in Humanities.

Currently, Dr. Sen is co-editing the December 2025 (special) issue of the New Zealand Journal of Asian Studies, and a post-conference edited volume (with Sekhar Bandyopadhyay) comprising selected papers from the ones presented at an international conference which she convened at the University of Auckland in September 2023.

Dr. Sen is working on her first monograph. The project examines, within the frameworks of affect theory and the critiques of Orientalism, a world of intimate power vis-à-vis official animosities in British India. The monograph revises her Ph.D. thesis, brings in additional materials, and rewrites the already published materials afresh. She also plans to co-convene an international conference with the support of her mentor at OSU. The conference will specifically boost Indo-U.S. collaboration in the field of South Asian Studies.

Gaurav Pandey

Dr. Gaurav Pandey earned his Ph.D. from the National Forensic Sciences University, Gandhinagar, Gujarat in 2023. His doctoral research focused on utilizing halloysite nanotubes loaded with various guest molecules for diverse biological applications. Throughout his Ph.D. journey, he consistently addressed environmental concerns, including heavy metal remediation, waste reduction, and pesticide sensing. He holds a master’s degree in forensic nanotechnology with a specialization in nanobiotechnology from Gujarat Forensic Sciences University, Gandhinagar, Gujarat, and a bachelor’s degree in biotechnology from SRM Institute of Science and Technology, Kattankulathur, Tamil Nadu. He was awarded gold and silver medals for his master’s and bachelor’s degrees, respectively. Dr. Pandey has qualified national-level exams, namely UGC NET JRF (in forensic science) in 2019 and GATE (in biotechnology) in 2016. He has authored over 30 publications, including research papers, review articles, a co-authored book, and book chapters.

Dr. Pandey’s research interests encompass leveraging naturally occurring clay-based nanomaterials to tackle contemporary environmental challenges, including mitigating greenhouse gas emissions, combating plastic pollution, and addressing water contamination issues.

As a Fulbright Nehru Postdoctoral Fellow, Dr. Pandey’s project is investigating the degradation of plastic waste using halloysite nanotube-based nanocomposites. The outcomes of this research have the potential to aid India in reducing its plastic waste burden and working towards the goal of becoming a low-plastic waste producing country by 2050.

Shameer Modongal

Dr. Shameer Modongal completed his Ph.D. in international relations from Jawaharlal Nehru University (JNU), New Delhi. He also holds M.A and M.Phil. degrees in international relations from the same institution, as well as an M.A in political science from Indira Gandhi National Open University (IGNOU), New Delhi. Dr. Modongal’s scholarly achievements include qualifying for the Junior Research Fellowship and the National Eligibility Test of the University Grants Commission in international and area studies, as well as the National Eligibility Test in political science.

In the realm of academic publications, Dr. Modongal has made significant contributions, notably publishing two books in 2022: Islamic Perspectives on International Conflict Resolution: Theological Debates on the Israel-Palestinian Peace Process (Routledge) and Religion and Nuclear Weapons: A Study of Islamic Republic of Iran and Pakistan (Vij Books India). Additionally, he co-edited the book Counterterrorism and Global Security: Genesis, Responses and Challenges (Vij Books India) in 2021. He also serves as an editor or reviewer for many prestigious international journals, including the British Journal of Political Science (Cambridge University Press) and Cogent Social Sciences (Taylor and Francis).

As a Fulbright-Nehru Postdoctoral Research fellow at the American University, Washington, D.C., Dr. Modongal is engaged in exploring the dynamics between American Islamic scholars and organizations amidst conflicting interests of pro-Israel U.S. government policies and pro-Palestinian Muslim community interests. His research examines how the Islamic discourse in the U.S. shapes perceptions regarding the formation of Israel and the friendly relations of Muslim countries with it, as well as the discourse among Islamic scholars and organizations surrounding the support that the U.S. extends to Israel.

Shikha Dixit

Dr. Shikha Dixit received her B.Sc. degree in agriculture from Indira Gandhi Krishi Vishwavidyalaya, Raipur in 2010. She obtained her postgraduation degree in plant biotechnology from the University of Agricultural Sciences, Bengaluru. She received an ICAR fellowship during her graduation and a DBT fellowship for her postgraduate studies after securing ninth position in a national-level exam. She received her Ph.D. in molecular biology and biotechnology in the year 2020 from the Indian Agricultural Research Institute, New Delhi. Her Ph.D. research was focused on understanding the defense molecular signaling pathway in response to fungal pathogens. During her postdoctoral research, she worked on DBT-funded and ICAR-funded projects, focusing on improving tolerance against necrotrophic pathogens by finding unique signaling factors in response to pathogens. She has published her research in prestigious journals and has also presented her findings at numerous national and international conferences. Apart from the academic fellowships, she is also the recipient of the IARI merit medal in 2020 and the ITS grant in 2023.

Adverse climatic conditions affect both plants and pathogens. Given their rapid adaptation ability, fluctuations in the weather pattern provide pathogens with more favorable conditions to thrive and increase the possibility of intense disease breakouts. As a Fulbright-Nehru Postdoctoral Research fellow at the Colorado State University, Fort Collins, CO, Dr. Dixit is identifying genes conferring favorable root architecture and pathogen tolerance under the dual-stress situation.