|
|
Phase change thermal interface materials: From principles to applications and beyond
Chenggong Zhao(赵成功), Yifan Li(李一凡), Chen Jiang(蒋晨), Yuanzheng Tang(唐元政), Yan He(何燕), Wei Yu(于伟), and Bingyang Cao(曹炳阳)
Chin. Phys. B,
2025, 34 (9):
096301.
DOI: 10.1088/1674-1056/ade59f
Phase change thermal interface materials (PC-TIMs) have emerged as a promising solution to address the increasing thermal management challenges in electronic devices. This is attributed to their dual mechanisms of latent heat absorption and phase change-induced interfacial wettability. This review explores the fundamental principles, material innovations, and diverse applications of PC-TIMs. The heat transfer enhancement mechanisms are first underlined with key factors such as thermal carrier mismatch at the microscale and contact geometry at the macroscale, emphasizing the importance of material selection and design for optimizing thermal performance. Section 2 focuses on corresponding experimental approaches provided, including intrinsic thermal conductivity improvements and interfacial heat transfer optimization. Section 3 discusses common methods such as physical adsorption via porous materials, chain-crosslinked network designs, and core-shell structures, and their effects on leakage prevention, heat transfer enhancement, and application flexibility. Furthermore, the extended applications of PC-TIMs in thermal energy storage are explored in Section 4, suggesting their potential in diverse technological fields. The current challenges in interfacial heat transfer research and the prospect of PC-TIMs are also discussed. The data-driven machine learning technologies will play an increasingly important role in addressing material development and performance prediction.
|
|
