晶圆级超薄半导体晶层的应变工程。

Wafer-scale strain engineering of ultrathin semiconductor crystalline layers.

机构信息

Thomas J. Waston Laboratories of Applied Physics, Calfornia Institute of Technology, 1200 East Calfornia Blvd., MC 128-95, Pasadena, CA 91125, USA.

出版信息

Adv Mater. 2011 Sep 1;23(33):3801-7. doi: 10.1002/adma.201101309. Epub 2011 Jul 19.

DOI:10.1002/adma.201101309

PMID:21769949

Abstract

The fabrication of a wafer-scale dislocation-free, fully relaxed single crystalline template for epitaxial growth is demonstrated. Transferring biaxially-strained Inx Ga1-x As ultrathin films from InP substrates to a handle support results in full strain relaxation and the Inx Ga1-x As unit cell assumes its bulk value. Our realization demonstrates the ability to control the lattice parameter and energy band structure of single layer crystalline compound semiconductors in an unprecedented way.

摘要

我们成功制备了晶圆级无位错、完全弛豫的单晶模板，用于外延生长。从 InP 衬底上转移双轴应变 Inx Ga1-x As 超薄薄膜到支撑衬底上，可实现完全弛豫，Inx Ga1-x As 晶胞晶格参数恢复到体相值。我们的研究成果前所未有地展示了对单原子层晶体化合物半导体的晶格参数和能带结构的控制能力。

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晶圆级超薄半导体晶层的应变工程。

Wafer-scale strain engineering of ultrathin semiconductor crystalline layers.

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