Jin Bai | Material Synthesis | Best Researcher Award
Assoc. Prof. Dr. Jin Bai, Chinese Academy of Sciences, China.
Jin Bai is a dedicated researcher specializing in materials physics and chemistry, with a strong focus on functional materials and nanotechnology. He has contributed extensively to material synthesis, structural analysis, and advanced applications in energy storage and electronics. As a Special Associate Research Fellow at the Hefei Institutes of Physical Science, he continues to drive innovation through cutting-edge research. Recognized for his excellence, he has received multiple honors, including the ‘Hefei E Class High-Level Talents’ award. With numerous publications and a passion for discovery, he remains at the forefront of scientific advancements in materials science. 
Publivation Profiles
SCOPUS
Education and Experience
- Ph.D. in Materials Physics and Chemistry (2015–2020)
- University of Science and Technology of China (USTC)
- Bachelor’s in Materials Physics (2011–2015)
- Huaibei Normal University, China
- Special Associate Research Fellow (2024–Present)
- Hefei Institutes of Physical Science, Chinese Academy of Sciences
- Postdoctoral Fellow (2020–2023)
- Hefei Institutes of Physical Science, Chinese Academy of Sciences
Suitability summary
Assoc. Prof. Dr. Jin Bai, a Special Associate Research Fellow at the Hefei Institutes of Physical Science, Chinese Academy of Sciences, is honored with the Best Researcher Award for his outstanding contributions to materials physics, nanomaterials, and advanced material synthesis. His research has significantly impacted cutting-edge material design, physical property optimization, and innovative applications in energy and electronic devices. His excellence has been recognized through multiple prestigious awards, including the ‘Hefei E-Class High-Level Talent’ Honor (2025) and the ‘Excellent Postdoctor’ Honor (2021-2023).
Professional Development
Jin Bai has built a distinguished career in materials physics, focusing on advanced materials and their applications in science and industry. During his postdoctoral tenure (2020-2023), he worked extensively on cutting-edge materials research, leading to significant innovations. Now, as a Special Associate Research Fellow, he is deeply involved in experimental and theoretical studies aimed at advancing functional materials. His work is widely recognized for its impact on materials science, contributing to global scientific knowledge. With an eye on the future, Jin Bai continues to drive research excellence, mentoring young scientists and collaborating internationally. 
Research Focus
Jin Bai specializes in materials physics and chemistry, with a strong focus on functional materials, nanotechnology, and applied materials research. His research explores material synthesis, structural analysis, and functional properties to enhance applications in electronics, energy storage, and environmental solutions. He investigates nanomaterials, quantum materials, and bio-inspired materials to develop next-generation technological solutions. His work integrates theoretical and experimental approaches, bridging gaps in advanced material development. With numerous publications and honors, his research significantly contributes to the scientific community, driving innovation in high-performance materials for sustainable and technological applications. 
Awards And Honours
- 2025 – ‘Hefei E Class High-Level Talents’ honor, Hefei, Anhui, China
- 2021-2023 – ‘Excellent Postdoctoral’ honor, Hefei Institutes of Physical Science, Chinese Academy of Sciences
- 2020 – ‘Excellent PhD Graduate’ honor, University of Science and Technology of China (USTC)
2025 – ‘Hefei E Class High-Level Talents’ honor, Hefei, Anhui, China
2021-2023 – ‘Excellent Postdoctoral’ honor, Hefei Institutes of Physical Science, Chinese Academy of Sciences
2020 – ‘Excellent PhD Graduate’ honor, University of Science and Technology of China (USTC)Publication Top Noted
Enhanced electrochemical characteristics of MnO anode induced cobalt dopant for Li-ion batteries (2025) – 0 citations 
Ca/Li Synergetic-Doped Na0.67Ni0.33Mn0.67O2 to Realize P2-O2 Phase Transition Suppression for High-Performance Sodium-Ion Batteries (2024) – 0 citations 
Amino Group-Aided Efficient Regeneration Targeting Structural Defects and Inactive FePO4 Phase for Degraded LiFePO4 Cathodes (2024) – 0 citations 
Regulation of Sulfur Atoms in MoSx by Magneto-Electrodeposition for Hydrogen Evolution Reaction (2024) – 1 citation 
Two Birds with One Stone: V4C3 MXene Synergistically Promoted VS2 Cathode and Zinc Anode for High-Performance Aqueous Zinc-Ion Batteries (2024) – 11 citations 
Recent progress in critical electrode and electrolyte materials for flexible zinc-ion batteries (2024) – 1 citation 
Surface Modification Driven Initial Coulombic Efficiency and Rate Performance Enhancement of Li1.2Mn0.54Ni0.13Co0.13O2 Cathode (2024) – 1 citation 
Mo2N/CoN nanotube with synergistic reaction of intercalation and conversion enables high-performance lithium-ion batteries (2023) – 1 citation 
Carbon Foam-Supported VS2 Cathode for High-Performance Flexible Self-Healing Quasi-Solid-State Zinc-Ion Batteries (2023) – 17 citations 
Magneto-electrochemistry driven ultralong-life Zn-VS2 aqueous zinc-ion batteries (2023) – 12 citations