A Semitransparent and Flexible Single Crystal Si Thin Film: Silicon on Nothing (SON) Revisited
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- 作者:Sanghyun Park ; Yong Hwan Lee ; Jung-Sub Wi ; Jihun Oh
- 刊名:ACS Applied Materials & Interfaces
- 出版年:2016
- 出版时间:July 27, 2016
- 年:2016
- 卷:8
- 期:29
- 页码:18962-18968
- 全文大小:406K
- 年卷期:0
- ISSN:1944-8252
文摘
Ultrathin single crystal Si films offer a versatile vehicle for high performance flexible and semitransparent electric devices due to their outstanding optoelectric and mechanical properties. Here, we demonstrate the formation of an ultrathin (100) single crystal Si film based on morphological evolution of nanoporous Si during high temperature annealing. Square arrays of cylindrical Si pores are formed by nanoimprint lithography and deep reactive etching and then subjected to annealing in hydrogen ambient. By controlling the aspect ratio of nanoporous Si, defect-free single crystal Si membranes with controlled thicknesses from 330 to 470 nm are formed on a platelike void after the annealing. In addition, we investigate the role of oxygen impurities in a hydrogen atmosphere on defect formation on a Si surface and eliminate the oxygen-related defects on Si by controlling gas phase diffusion of oxygen impurities during annealing in a conventional tube furnace. Finally, we demonstrate the transfer of a defect-free, flexible, and wafer scale Si membrane with thickness of 470 nm onto a PDMS substrate, utilizing the platelike void under the membrane as a releaser. The ultrathin flexible Si film on PDMS shows optical transmittance of about 30–70% in visible and near-infrared light.