Bhupinder Kaur | Energy | Women Researcher Award

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Assist Prof Dr. Bhupinder Kaur | Energy | Women Researcher Award

PHD at Thapar University, Patiala, India

Dr. Bhupinder Kaur is an Assistant Professor at Akal Degree College, Mastuana, Punjab, India. She earned her Ph.D. in Physics from Thapar University, Patiala, where she researched corrosion-resistant applications of glass steel interfaces. Dr. Kaur has an M.Sc. in Physics and a B.Ed. from Panjab University, Chandigarh. Her work has earned recognition, including a Junior Research Fellowship from the UGC and a Wastewater Management Project grant from IIT Delhi. She holds a patent for an electric vehicle integrating solar cells and supercapacitors. Dr. Kaur has published a book on corrosion protection and continues to contribute to her field through teaching and research. Energy

Professional Profiles

Education

B.Ed. 2006 Education Panjab University, Chandigarh I 2. M.Sc. 2008 Physics Panjab University, Chandigarh I 3. Ph.D. 2013 Physics Thapar University, Patiala A+ Grade 9. Ph.D. Thesis: Title: Study of Glass Steel Interface For Corrosion Resistant Applications Guide’s Name: Dr. O.P. Pandey, Dr. Kulvir Singh Institute/Organization/University: School of Physics and Materials Science, Thapar University, Patiala Year of Award: 2013 Energy

Professional Experience

Assistant Professor (Under Management Quota) Akal Degree College, Mastuana 01/08/2013 01/11/2016 21,600/- 2. Assistant Professor (Under Grant-in-aid Scheme) Akal Degree College, Mastuana 02/11/2016 Till date As per UGC norms Energy

Awards

Junior Research Fellow Meritorious Scholarship of University Grants Commission of India 2010 2. Appreciation Letter AKAL COLLEGE COUNCIL, Mastuana 2017 3. Wastewater Management Project IIT Delhi under UBA (1 Lakh) 2021

Patents

Electric vehicle integrating solar cells and super capacitors Dr. Bhupinder Kaur 202111020429 04/05/2021 Government of India Filed

Publications

  1. Microstructural study of Crofer 22 APU-glass interface for SOFC application, Publication date: 2012.
  2. Microstructural analysis of glass-steel interfacePublication date: 2013.
  3. Corrosion study of SiO2–CaO–Al2O3–Na2O–TiO2 glass coating on steel, Publication date: 2013.
  4. Optical and thermal properties of (70 − x)SiO2–xNa2O–15CaO–10Al2O3–5TiO2 (10 ≤ x ≤ 25) glasses, Publication date: 2015.
  5. Influence of modifier on dielectric and ferroelectric properties of aluminosilicate glasses, Publication date: 2017.
  6. Sustainable and effective microorganisms method for wastewater treatmentPublication date: 2024.
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Qiangfeng Xiao | Energy conversion | Best Researcher Award

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Prof Dr. Qiangfeng Xiao | Energy conversion | Best Researcher Award

Professor at Tongji University, China

Dr. Qiangfeng Xiao is a professor at Tongji University, China, with extensive experience in energy storage and conversion materials. He earned his Ph.D. in Chemical Engineering from UCLA in 2010 and has over 50 peer-reviewed publications, 10 patents, and 18 pending patents. Prior to Tongji, he worked at GM’s R&D Center, focusing on lithium-ion and fuel cell technologies. His research includes high-energy Li metal batteries, solid-state electrolytes, and advanced anodes and cathodes. Dr. Xiao is also a reviewer for top journals and a member of several professional societies, recognized for his innovation and contributions to the field.

Professional Profiles

Education

Ph.D. in Chemical Engineering, University of California, Los Angeles (UCLA), 2010. M.S. in Materials Science, Tsinghua University, Beijing, China, 2003. B.S. in Chemical Engineering, Qingdao University, Qingdao, China, 2000

Professional Experience

1. Tongji University, Professor (2018-Present) Leading projects on high-energy Li metal batteries, solid-state electrolytes, and advanced anodes and cathodes. 2. General Motors (GM) Team Leader, Cross-lab Collaboration (2017) Developed high-performance, lightweight surface coatings and vibration dampers for vehicle body panels and battery packs. Senior Researcher, Global Propulsion System (2017-2018) Conducted postmortem analysis of EV battery failures. Before his tenure at Tongji University, Dr. Xiao worked at the General Motors (GM) Research & Development Center for 8 years. Energy conversion

Qualifications

US permanent resident Extensive industrial experience in R&D, particularly in the development of lithium-ion batteries and fuel cells Expertise in the design and hands-on fabrication of 1Ah pouch cells Postmortem analysis of EV batteries In-situ characterization techniques for lithium-ion batteries, including In-situ XRD, TEM, and DEMS Development of technology roadmaps for EV batteries Experience in developing high-energy batteries (500 Wh/kg) Comprehensive knowledge of the industrial process of lithium-ion battery development and production Deep understanding of cell design and chemistry Proficiency in battery pack structure and analysis of cell state within packs Skilled in drafting and securing patent applications Experience in funding application and management Highly self-motivated and innovative. Energy conversion

Research Interests

Dr. Xiao’s research focuses on the design and synthesis of materials for energy storage and conversion applications. His significant contributions include: High-energy rechargeable Li metal 500 Wh/kg batteries F-containing electrolytes for Li anode Sulfides, Garnets, polymers, and their composite-based solid-state electrolytes High-capacity, long-life Si anodes Li-rich manganese-based cathodes Ni-rich single crystal cathodes High-power liquid fuel cells. Energy conversion

Research Focuse

Dr. Qiangfeng Xiao’s research primarily focuses on advanced materials for energy storage and conversion technologies. His work spans the design and synthesis of hierarchical nanowire composites, graphene-based ultrafast charge-discharge cathodes, and high-energy density lithium-ion supercapacitors. He has contributed significantly to the development of silicon and graphene-based anodes, as well as innovative coatings for lithium metal anodes. Dr. Xiao also explores biomimetic ionic channels in metal-organic frameworks for lithium-ion electrolytes and regenerative polysulfide-scavenging layers for lithium-sulfur batteries. His research innovations consistently aim at enhancing energy storage capacity, improving cycling life, and advancing materials for next-generation batteries and supercapacitors. Energy conversion

Publications

  1. In-situ Construction of Polyelectrolyte/Polyzwitterion Coacervate Framework for High-Performance Silicon Anodes, Publication date: 2024.
  2. High-voltage ether-based electrolytes for lithium metal batteries via synergy between the solvent and additive, Publication date: 2024.
  3. Boosting borohydride oxidation kinetics by manipulating hydrogen evolution and oxidation through octahedral Pt-Ni/C for high-performance direct borohydride fuel cells, Publication date: 2024.
  4. Investigation of non-precious metal cathode catalysts for direct borohydride fuel cells, Publication date: 2024.
  5. High-performance precious metal-free direct ammonia fuel cells endowed by Co-doped Ni4Cu1 anode catalysts, Publication date: 2023.
  6. Regulating cathode‐electrolyte interphase by confining functional aluminum compound within Ni‐rich cathodes,Publication date: 2023.
  7. High-performance zinc-air batteries enabled by hybridizing atomically dispersed FeN2 with Co3O4 nanoparticles, Publication date: 2023.
  8. Optimization of the cathode catalyst layer for boosting direct ammonia fuel cell performance by orthogonal tests, Publication date: 2023.
  9. Recent Progress on Nanomodification Applied in Anodes of Rechargeable Li Metal Batteries, Publication date: 2023.
  10. Prefabrication of a Lithium Fluoride Interfacial Layer to Enable Dendrite-Free Lithium Deposition, Publication date: 2023.
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