小型化
互连
集成电路
材料科学
引线键合
三维集成电路
工程物理
晶体管
集成电路封装
文艺复兴
钥匙(锁)
计算机科学
光电子学
纳米技术
电气工程
工程类
电信
计算机安全
艺术
炸薯条
电压
艺术史
作者
Asisa Kumar Panigrahy,Kuan‐Neng Chen
摘要
Arguably, the integrated circuit (IC) industry has received robust scientific and technological attention due to the ultra-small and extremely fast transistors since past four decades that consents to Moore's law. The introduction of new interconnect materials as well as innovative architectures has aided for large-scale miniaturization of devices, but their contributions were limited. Thus, the focus has shifted toward the development of new integration approaches that reduce the interconnect delays which has been achieved successfully by three-dimensional integrated circuit (3D IC). At this juncture, semiconductor industries utilize Cu–Cu bonding as a key technique for 3D IC integration. This review paper focuses on the key role of low temperature Cu–Cu bonding, renaissance of the low temperature bonding, and current research trends to achieve low temperature Cu–Cu bonding for 3D IC and heterogeneous integration applications.
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