电子设备和系统的热管理
数码产品
散热膏
可靠性(半导体)
材料科学
电力电子
桥(图论)
机械工程
电源模块
柔性电子器件
纳米技术
软件部署
接口(物质)
热的
电子包装
热导率
计算机科学
传热
基质(水族馆)
工程物理
材料选择
系统工程
电源管理
热阻
导电体
功率(物理)
集成电路封装
热管
印刷电路板
集成电路
电子线路
包装工程
作者
Yongjun Huo,Jiaqi Song,Wenqian Li,J. Y. Zhang,Yujin Zhang,Yang Fu,Wangchao Yuan,Xin Chen,Sichen Liu,Miao Jiang,Yuan Cheng,Gang Zhang
标识
DOI:10.1002/advs.202524348
摘要
ABSTRACT Current research on integrated circuits and power electronics is rapidly advancing toward miniaturization, high power density, and multi‐chip integration, which presents unprecedented challenges to the thermal management performance of packaging materials. Along the device‐to‐sink heat‐flow path in power modules, thermal management relies primarily on two functional material systems: substrate materials that provide mechanical support and electrical insulation, and thermal interface materials (TIMs) that bridge heat transfer across heterogeneous interfaces. This paper summarizes recent advances in thermal management materials for power electronics, with a focus on ceramic‐based substrate systems, particularly Si 3 N 4 ceramics, and TIM systems including conductive adhesives, diamond‐reinforced composites, and 2D filler–reinforced polymer composites. Emphasis is placed on improvements in thermal conductivity, reduction of thermal resistance, and enhancement of mechanical reliability through process optimization, interfacial engineering, and hybrid filler design. In addition, representative multiscale simulation approaches and emerging applications of artificial intelligence and machine learning are reviewed as tools for understanding interfacial heat transport and accelerating materials screening and optimization. Finally, key challenges and future directions toward scalable, reliable, and intelligent thermal management solutions are discussed, providing guidance for both academic research and industrial deployment in next‐generation power‐electronics packaging.
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