Material Properties of Zr–Cu–Ni–Al Thin Films as Diffusion Barrier Layer

Sung, Po Hsien; Chen, Tei Chen

doi:10.3390/cryst10060540

Cited by 2 publications

(1 citation statement)

References 45 publications

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“…Hence, it is important to select a proper material as a diffusion barrier between copper and tin to prevent the formation of IMCs during the minimization progress of electronics devices. In the recent years, several kinds of materials, such as TiN [8][9][10][11], Ni [12][13][14], Ta [15], and amorphous Zr 53 Cu 30 Ni 9 Al 8 [16], have been investigated as barrier layers to inhibit rapid copper diffusion in interconnect structures. Among these candidates, TiN, Ni, and Ta barrier layers are polycrystalline and cannot provide sufficient protection because grain boundaries can provide fast diffusion paths for copper and could react to form Cu-Sn IMCs.…”

Section: Introductionmentioning

confidence: 99%

Performance of Cu–Ag Thin Films as Diffusion Barrier Layer

Sung

Chen

2020

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It is well-known that Cu–Sn intermetallic compounds are easily produced during reflow process and result in poor reliability of solder bump. Recently, amorphous metallic films have been considered to be the most effective barrier layer because of the absence of grain boundaries and immiscibility with copper. Since Cu–Ag alloys are characterized by their lower electrical resistivity and superior glass-forming ability, they are appropriate to be used as the diffusion barrier layers. In this study, molecular dynamics simulation was performed to investigate the effects of composition ratio and quenching rate on the internal microstructure, diffusion properties, and the strength of the interface between polycrystalline Cu and Cu–Ag barrier layers. The results showed that Cu40Ag60 and Cu60Ag40 present more than 95% of the amorphous at quenching rate between 0.25 and 25 K/ps, indicating a good glass-forming ability. Diffusion simulation showed that a better barrier performance can be achieved with higher amorphous ratio. For the sample of Cu20Ag80 with quenching rate of 25 K/ps, a void is initially generated in amorphous Cu–Ag layer during the tensile test. This indicates the strength of amorphous Cu–Ag is weaker than Cu–Ag/Cu interface and the polycrystalline Cu layer.

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Section: Introductionmentioning

confidence: 99%

Performance of Cu–Ag Thin Films as Diffusion Barrier Layer

Sung

Chen

2020

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Spark plasma sintering of W-10Ti alloys: microstructure, properties and grain growth kinetics

Huang

Peng

et al. 2021

Mater. Res. Express

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The microstructure, properties and grain growth kinetics of W-10 wt.% Ti alloys prepared by spark plasma sintering (SPS) method at the temperatures from 1400 to 1700 °C, with the dwelling time from 0 to 30 min and a constant axial pressure of 30 MPa were investigated. The sintered W-10Ti alloys only contained a dominant β-W(Ti) phase and a fractional β-Ti(W) phase. The content of Ti-rich phase declined with the rise of sintering temperatures. In addition, the higher the sintering temperature, the higher the alloy density. When the sintering temperature was constant, the alloy density first increased and then decreased with the increasing dwelling time, and reached the maximum at 15 min. With the increase of the sintering temperature and dwelling time, the thermal conductivity first decreased, then flattened or slightly increased. At low temperatures (1400 °C–1500 °C), the grain growth was not obvious, but at high temperatures (1600 °C–1700 °C), the grain grew rapidly. The grain growth exponent of W-10Ti alloys was found to be n = 2, suggesting grain boundary diffusion controlled grain growth in the alloys. Activation energy for grain growth was calculated as 49.21–61.46 kJ mol−1.

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Material Properties of Zr–Cu–Ni–Al Thin Films as Diffusion Barrier Layer

Cited by 2 publications

References 45 publications

Performance of Cu–Ag Thin Films as Diffusion Barrier Layer

Performance of Cu–Ag Thin Films as Diffusion Barrier Layer

Spark plasma sintering of W-10Ti alloys: microstructure, properties and grain growth kinetics

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