材料科学
陶瓷
数码产品
互连
烧结
微波食品加热
微波应用
纳米技术
过程(计算)
集成电路
工程物理
硅
热电材料
热的
电子元件
温度循环
电气工程
作者
Cong Liu,Mingzhao Xu,Xinping Kang,Jing Guo,Boshen Zhang,Hongye Wang,Xinwei Xu,Huajiang Jin,Hong Wang
标识
DOI:10.1002/adma.202517514
摘要
Low-temperature co-fired ceramics (LTCC) with unique multilayer interconnection architectures are indispensable for electronic communication devices and high-density integrated packaging, facing stringent demands in millimeter-wave and higher-frequency applications. This review highlights recent advances in optimizing the comprehensive performance of LTCCs and proposes strategies for further enhancement to meet the ever-growing demands of high-performance microwave devices and systems. Specifically, LTCC material designs tailored to achieve desirable properties are discussed, including appropriate permittivity, low dielectric loss, a near-zero temperature coefficient of resonant frequency, high thermal conductivity, matched coefficient of thermal expansion, and excellent mechanical strength. Additionally, innovations in sintering technologies are highlighted, such as ultra-low temperature co-fired ceramic (ULTCC) technology and cold sintering process (CSP). These approaches further reduce sintering temperatures, enabling LTCCs to integrate with a broader range of materials (e.g., silicon chips, aluminum electrodes, 2D materials, and polymers) that were previously incompatible with traditional high-temperature processes. Finally, this review offers insights into the future development directions of LTCCs in emerging applications, including 3D integration and advanced packaging, integrated communication and sensing systems, and millimeter-wave/terahertz integrated miniaturized devices for next-generation electronics.
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