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Journal of Materials Science: Materials in Electronics

Erschienen in:

26.10.2020

Properties and microstructure evolution of Sn–Cu–Ni/Cu joints bearing carbon nanotubes and graphene nanosheets for solar cell

verfasst von: Liang Zhang, Nan Jiang, Peng He, Su-Juan Zhong

Erschienen in: Journal of Materials Science: Materials in Electronics | Ausgabe 23/2020

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Abstract

In this paper, 0.5 wt% carbon nanotubes (CNTs) and 0.05 wt% graphene nanosheets (GNSs) were selected as additives to modify the properties of Sn–Cu–Ni solder joints for solar cell. The mechanical properties of Sn–Cu–Ni solder joints can be improved by 20–25%. The interface growth behavior of Cu–Sn intermetallic compounds at Sn–Cu–Ni/Cu and Sn–Cu–Ni–0.5CNTs–0.05GNSs/Cu couples after 250 °C and 260 °C soldering with 10 min and 20 min. The experimental results indicate that the growth rate of Cu₆Sn₅ IMC of Sn–Cu–Ni/Cu solder joints is higher than that of Sn–Cu–Ni–0.5CNTs–0.05GNSs/Cu solder joints. That is, adding 0.5 wt% CNTs and 0.05 wt% GNSs can reduce the growth rate of the Cu₆Sn₅ IMC layer, which can be attributed to the reduction of the element diffusion coefficient. In addition, the stress–strain of the two solder joints were calculated using finite element method, it is found that the Sn–Cu–Ni–0.5CNTs–0.05GNSs/Cu solder joints have significantly less stress–strain than Sn–Cu–Ni/Cu solder joints, due to the reduction of Cu₆Sn₅ layer thickness, fatigue life of solder joints can be enhanced by three times.

Vorheriger Artikel Effect of Nickel and Cobalt co-substitution on the structural and dielectric properties of Barium Titanate ceramics

Nächster Artikel Green synthesis of blue-fluorescent carbon nanospheres from the pith of tapioca (Manihot esculenta) stem for Fe(III) detection

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Titel: Properties and microstructure evolution of Sn–Cu–Ni/Cu joints bearing carbon nanotubes and graphene nanosheets for solar cell
verfasst von: Liang Zhang
Nan Jiang
Peng He
Su-Juan Zhong
Publikationsdatum: 26.10.2020
Verlag: Springer US
Erschienen in: Journal of Materials Science: Materials in Electronics / Ausgabe 23/2020
Print ISSN: 0957-4522
Elektronische ISSN: 1573-482X
DOI: https://doi.org/10.1007/s10854-020-04688-7

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