Mingyue Wang | Battery Technology | Research Excellence Award

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Prof. Dr. Mingyue Wang | Battery Technology | Research Excellence Award

Associate Professor | Xi’an Jiaotong University | China

Prof. Dr. Mingyue Wang is an accomplished researcher and academic professional with strong expertise in electrochemical energy storage materials, particularly lithium-ion and sodium-ion battery systems. Professional experience includes leading and contributing to nationally funded research projects, supervising advanced laboratory studies, and collaborating with interdisciplinary teams to translate fundamental materials science into practical energy solutions. Research interests focus on electrode materials design, interface engineering, ion transport mechanisms, and reaction kinetics to enhance battery performance and durability. Core research skills include materials synthesis, electrochemical characterization, interface analysis, and data-driven performance optimization. Awards and honors reflect recognition as a globally influential scientist and recipient of competitive young-talent research distinctions. Overall, the work demonstrates sustained impact on sustainable energy storage innovation and scientific advancement. She has achieved 5619 Citations, 172 Documents, 44 h-index.

 

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172
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Yipeng Sun | Battery Technology | Research Excellence Award

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Assoc. Prof. Dr. Yipeng Sun | Battery Technology | Research Excellence Award

Associate Professor | Eastern Institute of Technology, Ningbo | China

Assoc. Prof. Dr.Yipeng Sun is a highly cited researcher specializing in advanced energy storage materials, with a strong focus on interfacial engineering for next-generation lithium-ion and solid-state batteries. Professional experience spans academic research leadership and postdoctoral innovation, contributing to high-impact studies on atomic and molecular layer deposition, electrode–electrolyte interfaces, and degradation mechanisms in high-energy-density battery systems. Research interests include durable cathode and anode materials, halide and sulfide electrolytes, synchrotron-based characterization, and scalable surface modification strategies for safe, long-life batteries. Research skills encompass atomic-scale fabrication, electrochemical analysis, in situ diagnostics, and materials design. Awards and honors reflect recognition at national and international levels for research excellence and innovation. Overall, the work demonstrates sustained contributions to battery science and practical energy solutions. He has achieved 3847 Citations 45 Documents 34h-index.

 

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3,847
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