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Processing-structure-protrusion relationship of 3D Cu TSVs: control at the atomic scale
journal contribution
posted on 2019-10-22, 08:20 authored by Jinxin Liu, Zhiheng Huang, Paul ConwayPaul Conway, Yang LiuA phase-field-crystal model is used to investigate the processing-structure-protrusion relationship of blind Cu through-silicon vias (TSVs) at the atomic scale. A higher temperature results in a larger TSV protrusion. Deformation via dislocation motion dominates at temperatures lower than around 300∘C, while both diffusional and dislocation creep occur at temperatures greater than around 300∘C. TSVs with smaller sidewall roughness Ra and wavelength λa exhibit larger protrusions. Moreover, different protrusion profiles are observed for TSVs with different grain structures. Both protrusions and intrusions are observed when a single grain is placed near the TSV top end, while the top surface protrudes near both edges when it contains more grains. Under symmetric loading, coalescence of the grains occurs near the top end, and a symmetric grain structure can accelerate this process. The strain distributions in TSVs are calculated, and the eigenstrain projection along the vertical direction can be considered an index to predict the TSV protrusion tendency.
Funding
National Natural Science Foundation of China (NSFC) under grant 51832002
Guangdong Natural Science Foundation under grant 2015A030312011
Zhuhai Key Technology Laboratory of Wide Bandgap Semiconductor Power Electronics under grant 20167612042080001
Zhuhai Rossini Watch Industry Ltd.
History
School
- Mechanical, Electrical and Manufacturing Engineering
Published in
IEEE Journal of the Electron Devices SocietyVolume
7Pages
1270 - 1276Publisher
Institute of Electrical and Electronics Engineers (IEEE)Version
- VoR (Version of Record)
Publication date
2019-10-15Copyright date
2019eISSN
2168-6734Publisher version
Language
- en
Depositor
Prof Paul Conway. Deposit date: 21 October 2019Usage metrics
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