Taiyuan University of Science and Technology | China
The scholar is an academic researcher in chemical engineering and Bromine-based flow battery materials science with a strong foundation in electrochemical energy storage technologies. Academic training in materials science and engineering provided a solid basis for advanced research in functional materials and electrochemical systems. Doctoral research conducted at a leading national research institute focused on iron-based flow battery systems, emphasizing electrolyte design, redox reaction mechanisms, and performance optimization for large-scale energy storage applications. Currently engaged in teaching and research at a university-level chemical engineering institution, the researcher’s work integrates electrochemistry, materials engineering, and energy technology. Research interests include redox flow batteries, iron-based energy storage systems, electrode material modification, electrolyte stability, and scalable energy storage solutions for renewable energy integration. The researcher has actively participated in multiple provincially supported research and innovation programs, contributing to fundamental and applied studies aimed at improving battery efficiency, durability, and cost-effectiveness. Ongoing projects emphasize sustainable energy storage materials, system optimization, and technological innovation aligned with clean energy and low-carbon development goals. Through a combination of experimental research and applied engineering approaches, the scholar contributes to advancing next-generation electrochemical energy storage technologies with potential industrial and environmental impact.
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