直接键合SiC/Si结特性与键合温度的关系

2018 IEEE International Meeting for Future of Electron Devices, Kansai (IMFEDK) Pub Date : 2018-06-01 DOI:10.1109/IMFEDK.2018.8581968

K. Shimozato, J. Liang, N. Shigekawa, M. Arai

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引用次数: 0

摘要

我们测量了直接键合的n-4H-SiC/p+-Si结的电特性和模具剪切强度，重点研究了它们对键合过程中退火条件的依赖性。在键合过程中，我们在第一步进行低温退火，在第二步进行高温退火。第一步通过提高退火温度，C-V测量得到的杂质浓度接近SiC的杂质浓度，结合强度增大。这些结果表明，直接键合SiC/Si结的特性取决于键合过程中第一步(较低温度)的退火温度。

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Dependence of Characteristics of Directly-Bonded SiC/Si Junctions on Bonding Temperature

We measure electrical characteristics and die shear strength of directly-bonded n-4H-SiC/p+-Si junction with emphasis on their dependence on the annealing condition during bonding. In the bonding process, we perform lower-temperature annealing at the first step and higher-temperature one at the second step. By increasing annealing temperature at the first step, the impurity concentration obtained by C-V measurement gets close to the impurity concentration of SiC and the bonding strength become larger. These results show that directly-bonded SiC/Si junction characteristics depend on the annealing temperature at the first (lower-temperature) step in the bonding process.

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2018 IEEE International Meeting for Future of Electron Devices, Kansai (IMFEDK)

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