Sujata Singh
Bengaluru, Karnataka| Grant Category: | Fulbright-Nehru Postdoctoral Research Fellowships |
| Project Title: | Development of Sodium-based (Na/Sb) intermetallic thin film as potential anode for Sodium-Ion Battery. |
| Field of Study: | Materials Science |
| Home Institution: | Independent researcher, College Station, TX |
| Host Institution: | Texas A & M University |
| Grant Start Month: | September,2024 |
| Duration of Grant: | Twenty-four-months |
Brief Bio:
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.