Low‐Temperature and High‐Rate Rechargeable Aluminum Batteries Enabled by Ternary Eutectic Electrolytes
Published by
ChemSusChem
Summary
journal-article
About
I am a Research Assistant Professor in the Department of Chemical and Biological Engineering at the University of New Mexico. My research focuses on electrochemical energy storage systems, with particular expertise in designing novel electrolytes and electrode materials for multivalent metal-ion, metal-air, and metal-CO₂ batteries. I specialize in understanding ion transport, solvation dynamics, and interfacial chemistry under extreme environmental conditions. Previously a postdoctoral fellow at UNM, I led several projects on eutectic electrolyte development and advanced battery chemistries, resulting in multiple patents, some of which have been licensed for commercialization. My current work involves the development of aluminum-air batteries for sustainable energy and carbon mitigation, demonstrating stable cycling performance across 2000+ hours with high capacity and energy efficiency. I hold a PhD in Chemistry from CSIR–IICT, India, where I pioneered the use of polythiophene-based cathodes for magnesium and aluminum batteries. I have presented at major conferences (AIChE, MRS), mentored students under NSF-funded outreach programs, and collaborated with institutions such as NASA, Los Alamos National Lab, Oak Ridge National Lab, and the Center for Integrated Nanotechnologies. My long-term vision is to enable climate-resilient, scalable, and indigenous battery technologies through interdisciplinary research and sustainable innovation.
Work
University of New Mexico
|Research Assistant Professor
US
→
University of New Mexico
|Posrdoctoral Fellow
US
→
Education
Indian Institute of Chemical Technology
India
→
Ph.D
University of Hyderabad
India
→
M.Sc
Publications
Gel polymer electrolytes for room-temperature sodium sulfur batteries
Published by
Nanoscale
Summary
journal-article
Advances in ionic-liquid-based eutectic electrolyte for high voltage rechargeable magnesium batteries
Published by
Ionics
Summary
journal-article
A Nonaqueous Eutectic Electrolyte for Rechargeable Iron Batteries
Published by
ACS Applied Energy Materials
Summary
journal-article
Chloroaluminate-ions driven all-organic rechargeable batteries
Published by
Synthetic Metals
Summary
journal-article
Unexplored Class of Eutectic Electrolytes for Rechargeable Magnesium Batteries
Published by
ACS Applied Energy Materials
Summary
journal-article
Molecular imprinting synthetic receptor based sensor for determination of Parkinson's disease biomarker DJ-1
Published by
Microchemical Journal
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One-dimensional polythiophene/multi-walled carbon nanotube composite cathodes for rechargeable magnesium battery: Evidence of improved stability and electrochemically induced rearrangement in electrode morphology
Published by
Electrochimica Acta
Summary
journal-article
MoS<sub>2</sub>/Polythiophene Composite Cathode as a Potential Host for Rechargeable Aluminum Batteries: Deciphering the Impact of Processing on the Performance
Published by
ACS Applied Energy Materials
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Self-arranged polythiophene on multi-walled carbon nanotube templated composites: Synthesis and application in rechargeable aluminium battery
Published by
Electrochimica Acta
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journal-article
Synthesis and Application of Magnesium Diethylphosphate for Rechargeable Magnesium Battery
Published by
ChemistrySelect
Summary
journal-article
A Facile and Efficient Synthesis of Oxindole Scaffolds through Linear Regioselective Reductive Coupling between Vinyl Sulfones and Isatins/Isatinimines
Published by
ChemistrySelect
Summary
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