2019
DOI: 10.3390/app9173535
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Two-Step Plasma Treatment on Sputtered and Electroplated Cu Surfaces for Cu-To-Cu Bonding Application

Abstract: The technology trends of next generation electronic packaging are moving toward heterogeneous 3D packaging systems. One of the key processes of 3D packaging system is Cu-to-Cu bonding, which is highly dependent on the planarized, activated, and oxygen-free Cu surface. A two-step plasma treatment is studied to form a Cu surface that does not react with oxygen and improves the Cu bonding interface quality at low bonding temperature (300 °C). In this study, the effects of two-step plasma treatment on both sputter… Show more

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Cited by 10 publications
(3 citation statements)
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“…Also, the as-sputtered deposited Cu thin film has a larger resistivity than the electroplated Cu film has. 38 The annealing step can change the grain size and film resistivity, and therefore, the lifetime of the Cu line. 39 Since the Cu sample in this study was not annealed before the EM stress, its resistance remains high, which can cause the quick raise of temperature and shorten the lifetime.…”
Section: Resultsmentioning
confidence: 99%
“…Also, the as-sputtered deposited Cu thin film has a larger resistivity than the electroplated Cu film has. 38 The annealing step can change the grain size and film resistivity, and therefore, the lifetime of the Cu line. 39 Since the Cu sample in this study was not annealed before the EM stress, its resistance remains high, which can cause the quick raise of temperature and shorten the lifetime.…”
Section: Resultsmentioning
confidence: 99%
“…Metastable Cu x N y , which is more hydrophilic than bare Cu, was induced by Ar/N 2 plasma in their research. Park et al (2020b), Seo et al (2020), Park et al (2020a) and Seo et al (2019) researched Ar, N 2 and Ar-N 2 two-step plasma to bond Cu-Cu wafers and Cu/SiO 2 hybrid wafers. Remote mood plasma is applied.…”
Section: Wet Treatment and Plasma-assisted Bondingmentioning
confidence: 99%
“…2.2.2.1 Cu-Cu Thermo-compression Bonding with Copper Nitride PassivationStudies have used metastable copper nitride that was created with Ar + N2 plasma treatment to passivate the copper surface and prevent it from oxidation[12] [25][26]. One advantage of copper nitride passivation over SAM is that the nitrogen from the decomposed copper nitride can diffuse through the Cu when the surfaces are in contact unlike the alkane-thiol, which is required to be purged from the Cu surface before contact.…”
mentioning
confidence: 99%