Jiabao Li | Engineering | Research Excellence Award

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Mr. Jiabao Li | Engineering | Research Excellence Award

Yangzhou University | China

Mr. Jiabao Li is a materials scientist and electrochemical energy researcher specializing in sodium-ion batteries and capacitive deionization, with particular focus on electrode and electrolyte design for extreme temperature environments. He earned his bachelor’s and master’s degrees in applied chemistry from Anhui Agricultural University, followed by a Ph.D. in materials and optoelectronics from East China Normal University, including a joint research period at the Georgia Institute of Technology. Since completing his doctoral work, he has served as a lecturer and researcher, leading multiple competitive research projects in materials innovation and energy-storage systems. His work integrates experimental synthesis with computational tools such as DFT modeling and molecular dynamics simulations to advance high-performance sodium-ion storage materials. He has published 98 scientific documents, accumulating 5,410 citations across 4,235 referencing documents, with an h-index of 40, reflecting significant global impact in the fields of battery chemistry and electrochemical engineering. His awards include national and institutional scholarships that recognize excellence in scientific research and academic achievement. Overall, his career demonstrates sustained contributions to next-generation energy-storage technologies and the advancement of robust sodium-ion systems for low-temperature and high-efficiency applications.

Profile : Scopus

Featured Publications

Unveiling the neglected role of oxygen doping in nitrogen-doped carbon for enhanced capacitive deionization performance. Nature Communications, 2025.

Rapidly evaluating electrochemical performance of transition metal disulfides for lithium-ion batteries using machine learning classifier. Chemical Engineering Journal, 2025.

Ionic conductor-armored Li₃V₂(PO₄)₃: a robust electrode for lithium capture via capacitive desalination. Chemical Communications, 2025.

Anion screening in ether-based electrolytes for boosted sodium storage at low temperature. Energy Storage Materials, 2025.

Coordination-tuned Na₃V₂(PO₄)₃ cathodes for low-temperature sodium-ion batteries. Chemical Communications, 2025.

 

Narinder Kaur | Emerging Research Trends | Best Researcher Award

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Dr. Narinder Kaur | Emerging Research Trends | Best Researcher Award

Jaypee Institute of information and technology Noida | India

Dr. Narinder Kaur is an accomplished physicist and researcher specializing in 2D materials, photoelectrochemical water splitting, photodetectors, thermoelectricity, and nanoscale characterization techniques such as Raman spectroscopy, AFM, ellipsometry, and electrospinning. She earned her Ph.D. from the Indian Institute of Technology Delhi, focusing on the growth, structural, optoelectronic, and photoelectrochemical properties of 2D transition metal chalcogenides and their heterostructures. She holds an M.Tech in Nanoscience and Technology and an M.Sc. in Physics, both with top distinctions. Dr. Kaur has extensive research experience as a senior research fellow, teaching assistant, and trainer in advanced spectroscopy and microscopy techniques, and has mentored numerous M.Tech and Ph.D. students in projects involving heterostructure synthesis, thermoelectric materials, and defect engineering of 2D materials. She has contributed to high-impact publications in reputed journals including ACS Applied Energy Materials, RSC Journal of Materials Chemistry C, and Small, and presented her work at international conferences. Dr. Kaur has expertise in material synthesis, device fabrication, and characterization, and has demonstrated leadership in managing central research facilities. Her work advances energy conversion, photodetection, and nanoscale material science, earning her recognition in the field of condensed matter physics and nanotechnology.

Profiles: Scopus | Orcid | Google Scholar

Featured Publications

Kaur, N., & Sharma, D. (2025). “Design and optimization of MoS2 nanolayers for sustainable waste water treatment and photoelectrochemical hydrogen production.” International Journal of Hydrogen Energy.

Kaur, N., & Sharma, D. (2025). “Optimized Photoelectrochemical Water Splitting via Orientation-Controlled Growth of 2D In2S3 Nanoflakes by Chemical Vapor Deposition.” ACS Applied Energy Materials.

Kaur, N., Ghosh, A., & Rohtagi, B. (2025). “Synthesis of Au nanoparticles and functionalization of In2S3 nanoflowers for enhanced photoelectrochemical performance.” Journal of Solid State Electrochemistry.

Kaur, N., Kodan, N., Sharma, D., Ghosh, A., Bisht, P., Singh, R., & Mehta, B. R. (2025). “2D-In2S3 nanoflakes/1D-WO3 nanorods heterojunction with enhanced absorption and photoresponse for photoelectrochemical water splitting.” Renewable Energy.

Bisht, P., Belle, B. D., Aggarwal, P., Ghosh, A., Xing, W., Kaur, N., Singh, J. P., & Mehta, B. R. (2024). “Gas Sensing Properties of PLD Grown 2D SnS Film: Effect of Film Thickness, Metal Nanoparticle Decoration, and In Situ KPFM Investigation.” Small.