Conducting atomic force microscopy study of phase transformation in silicon nanoindentation

Shu-Te Ho; Yu-Hsien Chang; Heh-Nan Lin

doi:10.1063/1.1780609

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Conducting atomic force microscopy study of phase transformation in silicon nanoindentation

Journal article

Peer reviewed

Conducting atomic force microscopy study of phase transformation in silicon nanoindentation

Shu-Te Ho, Yu-Hsien Chang and Heh-Nan Lin

Journal of applied physics, Vol.96(6), pp.3562-3564

15/09/2004

DOI: https://doi.org/10.1063/1.1780609

Abstract

We report the study of phase transformation in the nanoindentation of Si by conducting atomic force microscopy. Distinctively high current features with a smallest size of around 20nm have been observed and correspond directly to the generated conductive Si-III and/or Si-XII phases under pressure release. Local current-voltage relationships on the high current sites have also been obtained and found to follow the Fowler-Nordheim tunneling equation.

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Title: Conducting atomic force microscopy study of phase transformation in silicon nanoindentation
Creators - without role: Shu-Te Ho - National Tsing Hua University
Yu-Hsien Chang
Heh-Nan Lin - National Tsing Hua University
Publication Details: Journal of applied physics, Vol.96(6), pp.3562-3564
Identifiers: 9943236708331
Academic Unit: King Abdullah University of Science & Technology
Language: English
Resource Type: Journal article