Electroless-deposition of epitaxial (111)-oriented silver on nanotwinned copper microbumps for metal direct bonding

Journal of Materials Research and Technology Pub Date : 2023-11-30 DOI:10.1016/j.jmrt.2023.11.241

Hsiang-Hou Tseng, Man-Chi Lan, Wei-You Hsu, Jia-Juen Ong, Dinh-Phuc Tran, Chih Chen

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Abstract

A large lattice mismatch between Ag and Cu commonly results in incoherently polycrystalline deposited features. It is very challenging to epitaxially deposit an Ag film on Cu. In this study, an epitaxial Ag film was electroless-deposited on nanotwinned Cu (NT-Cu) microbumps. Although the Ag/Cu large lattice mismatch, the Ag films replicated the NT-Cu structure and epitaxially grew on the NT-Cu microbumps. Fast Fourier transform (FFT) in high resolution transmission microscopy (HRTEM) was employed to confirm the epitaxial growth. Such Ag films also played a vital role in inhibiting oxidation during the bonding processes of the microbumps. Possessing (111)-preferred orientation and high surface diffusivities, the epitaxial Ag films were thus beneficial for the metal direct bonding at a low temperature below 100 °C in air. HRTEM FFT analysis indicates excellent bonding interfaces with (111) Ag on (111) Cu. Interdiffusion of Cu and Ag atoms may occur during the bonding process to form Cu–Ag alloys to strengthen the bonding interface.

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外延(111)取向银在纳米孪晶铜微凸点上的化学沉积

银和铜之间的大晶格失配通常导致非相干多晶沉积特征。在铜表面外延沉积银薄膜是一项非常具有挑战性的工作。在本研究中，在纳米孪晶Cu (NT-Cu)微凸起上化学沉积了外延银膜。尽管Ag/Cu晶格失配较大，但Ag薄膜复制了NT-Cu结构，并在NT-Cu微凸起上外延生长。采用高分辨率透射显微镜(HRTEM)快速傅里叶变换(FFT)来证实外延生长。这种银膜在微凸点的键合过程中也起到了抑制氧化的重要作用。外延银薄膜具有(111)择优取向和高表面扩散率，因此有利于金属在低于100 °C的低温下在空气中直接结合。HRTEM FFT分析表明，(111)Ag和(111)Cu具有良好的键合界面。结合过程中Cu和Ag原子相互扩散形成Cu - Ag合金，强化了结合界面。

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Journal of Materials Research and Technology

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