Low-Temperature Cu-Cu Wafer Bonding

Bernhard Rebhan; Günter Hesser; Jiri Duchoslav; V. Dragoi; Markus Wimplinger; Kurt Hingerl

doi:10.1149/05007.0139ecst

Low-Temperature Cu-Cu Wafer Bonding

Bernhard Rebhan, Günter Hesser, Jiri Duchoslav, V. Dragoi, Markus Wimplinger, Kurt Hingerl

Center for Surface and Nanoanalytics

Research output: Contribution to journal › Article › peer-review

Abstract

Metal thermo-compression bonding is a process suitable for 3D interconnects applications at wafer level. The process requires typically bonding temperatures of ~400°C and high contact pressure applied during bonding. Temperature reduction below such values is required in order to solve some issues regarding wafer-to-wafer misalignment after bonding and to minimize thermo-mechanical stresses. Low-temperature (LT) Cu-Cu wafer bonding was successfully demonstrated at 175°C. The bond quality, bond strength, metal interface layers microstructure and chemical composition of Cu-Cu wafer pairs bonded under different process conditions were investigated. Experimental results on various Cu native oxide methods evaluation as well as results obtained for various bonding and annealing temperatures are presented.

Original language	English
Pages (from-to)	139-149
Number of pages	11
Journal	ECS Transactions - Electrochemical Society
Volume	50
Issue number	7
DOIs	https://doi.org/10.1149/05007.0139ecst
Publication status	Published - 2013

Fields of science

210006 Nanotechnology
103020 Surface physics
103021 Optics

JKU Focus areas

Engineering and Natural Sciences (in general)

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10.1149/05007.0139ecst

Cite this

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title = "Low-Temperature Cu-Cu Wafer Bonding",

abstract = "Metal thermo-compression bonding is a process suitable for 3D interconnects applications at wafer level. The process requires typically bonding temperatures of \textasciitilde{}400°C and high contact pressure applied during bonding. Temperature reduction below such values is required in order to solve some issues regarding wafer-to-wafer misalignment after bonding and to minimize thermo-mechanical stresses. Low-temperature (LT) Cu-Cu wafer bonding was successfully demonstrated at 175°C. The bond quality, bond strength, metal interface layers microstructure and chemical composition of Cu-Cu wafer pairs bonded under different process conditions were investigated. Experimental results on various Cu native oxide methods evaluation as well as results obtained for various bonding and annealing temperatures are presented.",

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AU - Rebhan, Bernhard

AU - Hesser, Günter

AU - Duchoslav, Jiri

AU - Dragoi, V.

AU - Wimplinger, Markus

AU - Hingerl, Kurt

PY - 2013

Y1 - 2013

N2 - Metal thermo-compression bonding is a process suitable for 3D interconnects applications at wafer level. The process requires typically bonding temperatures of ~400°C and high contact pressure applied during bonding. Temperature reduction below such values is required in order to solve some issues regarding wafer-to-wafer misalignment after bonding and to minimize thermo-mechanical stresses. Low-temperature (LT) Cu-Cu wafer bonding was successfully demonstrated at 175°C. The bond quality, bond strength, metal interface layers microstructure and chemical composition of Cu-Cu wafer pairs bonded under different process conditions were investigated. Experimental results on various Cu native oxide methods evaluation as well as results obtained for various bonding and annealing temperatures are presented.

AB - Metal thermo-compression bonding is a process suitable for 3D interconnects applications at wafer level. The process requires typically bonding temperatures of ~400°C and high contact pressure applied during bonding. Temperature reduction below such values is required in order to solve some issues regarding wafer-to-wafer misalignment after bonding and to minimize thermo-mechanical stresses. Low-temperature (LT) Cu-Cu wafer bonding was successfully demonstrated at 175°C. The bond quality, bond strength, metal interface layers microstructure and chemical composition of Cu-Cu wafer pairs bonded under different process conditions were investigated. Experimental results on various Cu native oxide methods evaluation as well as results obtained for various bonding and annealing temperatures are presented.

UR - https://www.scopus.com/pages/publications/84885717177

U2 - 10.1149/05007.0139ecst

DO - 10.1149/05007.0139ecst

M3 - Article

SN - 1938-5862

VL - 50

SP - 139

EP - 149

JO - ECS Transactions - Electrochemical Society

JF - ECS Transactions - Electrochemical Society

IS - 7

ER -

Low-Temperature Cu-Cu Wafer Bonding

Abstract

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