Prof. Dr. Weiqing Jiang | Physical Chemistry | Best Researcher Award
Guangxi University | China
Profiles
Early Academic Pursuits
Professor Weiqing Jiang began her academic journey in the field of chemical technology, where she pursued and completed her doctoral studies. From the outset, she exhibited a strong interest in the development and optimization of materials that contribute to energy storage and conversion. Her early academic efforts laid a strong foundation in materials science, particularly in solid-state chemistry and electrochemical systems.
Professional Endeavors
Following her doctoral work, Professor Jiang took on a faculty position at Guangxi University, where she currently serves as a professor in the School of Physical Science and Technology. Her role encompasses both research and academic leadership, positioning her as a key figure in advancing the university’s materials science program. Over the course of her career, she has successfully completed multiple research projects supported by national and regional scientific foundations, affirming her ability to attract funding and execute high-level research programs.
Contributions and Research Focus
Professor Jiang’s primary research centers on solid-state hydrogen storage materials and electrode materials for nickel/metal-hydride (Ni/MH) rechargeable batteries. A distinctive feature of her work is the integration of experimental techniques with first-principles theoretical calculations, enabling her to uncover insights into hydrogenation and dehydrogenation mechanisms. Her findings have shown that annealing processes can significantly improve electrochemical performance and that the inclusion of more electronegative elements in metal hydrides enhances thermal stability, thus influencing both thermodynamic and kinetic behaviors. Her research provides valuable pathways for the development of advanced, high-performance energy storage materials.
Impact and Influence
Professor Jiang’s research has gained meaningful recognition, both nationally and internationally. Her work on La-Ti-Mg-Ni-based alloys for hydrogen storage was noted as particularly innovative and was evaluated as highly promising by an international award committee. This acknowledgement reflects the practical applicability and forward-thinking nature of her research, which aligns closely with global efforts toward clean energy and sustainable technology.
Academic Citations
With a citation index of over 300 across her publications in SCI-indexed journals, Professor Jiang’s work has established a clear academic footprint. Her citation count indicates sustained engagement from the scientific community, reflecting the relevance and utility of her contributions in the domain of hydrogen storage materials and electrochemical systems.
Technical Skills
Professor Jiang is proficient in a wide range of technical areas, including solid-state synthesis, structural and phase characterization of materials, electrochemical testing, and computational modeling through first-principles calculations. Her dual competency in experimental and theoretical approaches gives her a unique advantage in materials research, enabling her to validate experimental observations with predictive modeling.
Teaching Experience
As a professor, Professor Jiang plays a vital role in the academic development of undergraduate and graduate students. Her teaching integrates cutting-edge research with classroom instruction, enriching student learning with real-world scientific challenges. She likely supervises graduate theses and projects, contributing to the development of future researchers in the field of materials science.
Legacy and Future Contributions
Professor Jiang’s legacy lies in her methodical and innovative approach to solving fundamental problems in hydrogen storage and energy conversion. Moving forward, she is poised to make even greater contributions by expanding her research to interdisciplinary areas such as hydrogen fuel infrastructure, lightweight alloy design, and renewable energy integration. Her ongoing projects suggest a sustained commitment to the advancement of clean energy technologies.
Notable Publications
Atomic spin engineering of Fe-N-C by axial chlorine-ligand modulation for lightweight and efficient electromagnetic wave absorption
- Authors: Qi Wei, Pan Zhang, Xinyu Guo, Weiqing Jiang, Xiaoma Tao, Pei Kang Shen, Zhi Qun Tian
Journal: Journal of Colloid and Interface Science
Year: 2025
Role of Fe, Co and Ni in dehydrogenation thermodynamics and kinetics of LiBH₄ (010) surface: a first-principles study
- Authors: Yu Ma, Xiaohua Mo, Changhong Li, Jincheng Wang, Jiafang Qin, Chunxi Pang, Tian Liang, Yifan Qiu, Weiqing Jiang
Journal: International Journal of Hydrogen Energy
Year: 2025
Enhanced dehydrogenation of MgH₂ modified by Ti and S: A first-principles investigation
- Authors: Xiaoli Zuo, Xiaohua Mo, Weiqi Zhou, Jinlin Zhang, Chunyan Hu, Weiqing Jiang
Journal: International Journal of Hydrogen Energy
Year: 2024
Dehydrogenation properties of LiBH₄ modified by Mg from first-principles calculations
- Authors: Xiaohua Mo, Weiqing Jiang
Journal: Journal of Alloys and Compounds
Year: 2018
Effect of Al on the dehydrogenation of LiBH₄ from first-principles calculations
- Authors: Jiang Weiqing, Cao Shilong
Journal: International Journal of Hydrogen Energy
Year: 2017
Conclusion
Professor Weiqing Jiang is a respected and impactful figure in the field of hydrogen storage materials. Her pioneering research, successful project leadership, recognized innovation, and academic contributions collectively demonstrate her significance in the global scientific community. Through continued exploration and mentorship, she is set to play a lasting role in shaping the future of sustainable energy research and materials science.