Academic Information
Ph.D, Jadavpur University, 2016
Research Areas
Research Interests
My research interests lie in experimental condensed matter physics with a strong focus on nanotechnology and advanced functional materials. I work on ceramics, nanomaterials, and polymer composites for applications in energy generation and storage, particularly dielectric separators and electrode materials for supercapacitors. I am also interested in catalysis for sustainable energy conversion, including electrocatalysts for HER–OER reactions. In addition, my research explores multifunctional materials for electromagnetic interference shielding, aiming to integrate electrical, dielectric, and mechanical properties for next-generation energy and electronic devices.
Courses Taught
Positions Held
R&D Head, RESCON INDIA PVT. Ltd,
RUSA 2.0 Post Doctoral Fellow at Jadavpur University
Research Associate at CGCRI
Publications
1. Transition metal impregnated nanostructured oxide material for broadband electromagnetic interference shielding: A theoretical and experimental insight, Chemical Engineering Journal (I.F- 13)
2. A rational preparation strategy of phase tuned MoO3 nanostructures for high-performance all-solid asymmetric supercapacitor, Journal of Energy Chemistry (I.F-15)
3. Rare earth ion-infused α-MnO2 nano-rods for excellent EMI shielding efficiency: Experimental and theoretical insights- Sustainable Materials and Technologies (I.F-10)
4. Rare Earth Ion-Doped α-MnO2Nanorods for an Asymmetric Supercapacitor, ACS Applied Nano Materials (I.F 8)
5. Tailoring ZnMnO3 nanostructures: A promising strategy for high energy density asymmetric supercapacitors, Journal of Energy Storage (I.F 10)
6. Bifunctional spinel ZnMn2O4 nanostructures for efficient supercapacitors and water splitting electrocatalysts: a synergistic experimental and modeling study, Journal of Materials Chemistry A (I.F-10)
7. Synergistic experimental and theoretical investigation of a dual-active mode self-powered supercapacitor for high energy density application, Journal of Energy Storage (I.F 10)
8. Optimized perovskite NiCrO3 nanocrystals for high energy density, symmetric and asymmetric flexible supercapacitor devices: A comparative analysis, Journal of Energy Storage (I.F- 10)
9. Te4+ and Er3+ doped ZrO2 nanoparticles with enhanced photocatalytic, antibacterial activity and dielectric properties: A next generation of multifunctional material, Journal of Environmental Management, (I.F -9)
10. Crystal growth mediated physicochemical properties enhancement of CoMnO3 perovskite nanomaterials and its efficient degradation of organic dyes and pathogenic bacteria under mechanical stimuli, Journal of Environmental Chemical Engineering (I.F -7)