Dr. GUOCHANG LI | Electrochemistry – Professor at NINGBO UNIVERSITY, China
Dr. Guochang Li is a rising scholar in the field of materials science, currently holding the position of Distinguished Associate Professor at the School of Materials Science and Chemical Engineering, Ningbo University. His research career is marked by innovation in the development of functional materials for clean energy applications. With a solid academic foundation and a growing international presence, Dr. Li is recognized for his deep expertise in energy storage technologies, particularly involving nanostructured carbon materials and metal-organic frameworks (MOFs). His passion for research is matched by a rigorous work ethic and a commitment to advancing sustainable energy solutions.
Profile:
Education:
Dr. Li obtained his Ph.D. in Chemistry from Nanjing University, one of China’s most prestigious institutions in scientific research and education. During his doctoral training, he conducted in-depth studies on hierarchical nanostructures and carbon-based materials for energy applications, developing expertise in synthesis techniques, electrochemical testing, and structural characterization. His academic formation under the supervision of a leading Cheung Kong Scholar provided him with strong methodological skills, exposure to interdisciplinary research, and a foundation for scientific independence.
Experience:
Following his doctoral studies, Dr. Li joined Ningbo University as a faculty member and quickly advanced to the role of Distinguished Associate Professor. In this capacity, he leads research projects funded by national foundations, supervises graduate students, and manages a laboratory dedicated to the synthesis and characterization of energy materials. He has participated in key national research programs focusing on lithium-sulfur batteries, sodium-ion technologies, and electrocatalytic water splitting. Additionally, he is highly skilled in the operation and maintenance of advanced instruments such as SEM, HRTEM, XRD, and electrochemical analyzers, and actively contributes to building research infrastructure.
Research Interest:
Dr. Li’s research interests are focused on the controllable synthesis and practical application of carbon-based and MOF-derived nanomaterials for electrochemical energy storage and conversion. He is particularly invested in exploring single-atom and double-atom catalytic sites and their roles in interfacial chemistry, with applications in sodium-ion batteries, Zn-I2 batteries, and supercapacitors. His future work aims to decode the mechanisms of solid–electrolyte interface formation and ion transport regulation, thereby contributing to the development of next-generation, high-efficiency energy storage devices.
Awards:
While still in the early stages of his academic career, Dr. Li has already earned distinctions such as leadership of a National Natural Science Foundation project and multiple invention patents. His rapid progression to a distinguished faculty position and his strong presence in high-impact journals demonstrate his scientific excellence and peer recognition. These accolades are a testament to his capabilities, originality, and potential as a future leader in materials science.
Publications:
📘 Angew. Chem. Int. Ed., 2024 – “Single atomic Cu–C3 sites catalyzed interfacial chemistry in Bi@C” — Highly cited for its innovative approach to sodium-ion batteries.
⚡ Adv. Funct. Mater., 2024 – “Synergistic engineering of NiSe2/Co3Se4 quantum dots threaded by CNTs” — Widely referenced in battery research.
🔬 Adv. Funct. Mater., 2024 – “Fe2Mo3O8@C@MoS2 structures for sodium storage” — Recognized for contributions to ion diffusion studies.
⚙️ Small, 2022 – “Hierarchical carbon nanocages for supercapacitors” — Cited for high energy and power density performance.
💎 Adv. Mater., 2020 – “Compressed N,S co-doped nanocages via capillarity” — One of the most cited works in volumetric energy storage.
🌊 Appl. Surf. Sci., 2025 – “Fluorine-doped carbon dots on Fe-Co selenide nanosheets for seawater electrolysis” — Gaining attention for OER catalysis.
🌿 Dalton Trans., 2023 – “Regulation of Fe–N–C single-atom catalyst by S-doping” — Referenced in CO₂ electroreduction studies.
Conclusion:
Dr. Guochang Li has demonstrated an outstanding trajectory in the field of materials science, combining scientific rigor with originality and innovation. His publication record, technical expertise, and successful leadership of research projects reflect both productivity and potential. His research not only addresses critical challenges in sustainable energy technologies but also lays a strong foundation for impactful future discoveries. With his forward-thinking vision and dedication, Dr. Li is an excellent candidate for the Best Researcher Award, and his continued contributions are expected to have a lasting influence on the global scientific community.