Journal
MRS COMMUNICATIONS
Volume 2, Issue 1, Pages 9-12Publisher
CAMBRIDGE UNIV PRESS
DOI: 10.1557/mrc.2011.24
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Funding
- Australian Research Council
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Nanoindentation-induced phase transformations in both crystalline silicon (c-Si) (100) and ion-implanted amorphous silicon have been studied at temperatures up to 200 degrees C. The region under the indenter undergoes rapid volume expansion at temperatures above 125 degrees C during unloading, which is indicated by bowing behavior in the load-displacement curve. Polycrystalline Si-I is the predominant end phase for indentation in crystalline silicon whereas high-pressure Si-III/Si-XII phases are the result of indentation in amorphous silicon. We suggest that the Si-II phase is unstable in a c-Si matrix at elevated temperatures and can directly transform to Si-I during the early stages of unloading.
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