Ling Ziye

The research direction focuses on advanced thermal management and energy-storage safety, with systematic studies on the design, synthesis, and engineering applications of phase-change thermal storage materials, thermochemical storage materials, and their composite structures. Through multi-scale heat and mass transfer analysis combined with data-driven modeling approaches, the intrinsic relationships between microstructural features, thermophysical properties, and macroscopic thermal response are elucidated, enabling the development of functional material systems that simultaneously achieve high energy-storage density, enhanced thermal conductivity, and long-term cycling stability. Building on this foundation, the work further targets high heat-flux electronic devices, electrochemical energy-storage systems, and aerospace or extreme-environment equipment, conducting integrated material–device–system thermal control design and coupled heat-transfer mechanism studies. By exploring synergistic enhancement pathways involving phase change, gas–liquid two-phase flow, and thermochemical reactions across multiple physical fields, the research aims to realize lightweight, high-power-density, and high-safety-margin thermal management solutions, providing both theoretical foundations and engineering support for the safe operation of new-energy technologies and efficient energy utilization.