Ultrasoft silicon nanomembranes: thickness-dependent effective elastic modulus

Nanoscale
Ajit K KatiyarJong-Hyun Ahn

Abstract

For decades, silicon (Si) has been widely used for the mass production of microelectronic circuits. Recently, as the thickness has been reduced to the nanometer scale, its application has expanded to various fields, including flexible and transparent 2D semiconductors. For the reliable and reproducible operation of such large flexible and transparent devices, obtaining precise information about the mechanical properties of low dimensional Si is crucial. Here, we demonstrate that a 2 nm-thick Si nanomembrane (NM) exhibits an extremely low Young's modulus of 3.25 GPa, a two-order smaller value than that of the bulk counterpart. Our systematic measurement of thickness-controlled Si NMs reveals the existence of significant size effect: The effective modulus rapidly changes from 180 GPa to 3.25 GPa under 25 nm to 2 nm thickness reduction. Our theoretical modeling successfully provides physical insight into the unique stiff-to-soft transition and extremely low modulus. We further demonstrate that the modulus of Si NMs can be tailored precisely via the control of surface morphology of membrane. This work therefore provides a comprehensive picture of how and why originally hard & stiff Si deforms so softly in the ultrathin 2D geometry,...Continue Reading

References

Feb 23, 2005·Langmuir : the ACS Journal of Surfaces and Colloids·Mingji WangJ M White
Aug 16, 2006·Physical Review Letters·Hiroo OmiMasashi Uematsu
Jul 26, 2008·Nature Nanotechnology·Yugang SunJohn A Rogers
Jan 23, 2009·Nano Letters·Michael J GordonPierre Ferret
Mar 3, 2010·Nano Letters·Pavel NeuzilJulien Reboud
Nov 8, 2014·Nanotechnology·Enming SongYongfeng Mei
Aug 19, 2015·The Journal of Physical Chemistry Letters·Olivier SublemontierCatalin Miron
Aug 20, 2016·Science Advances·Hongti ZhangYang Lu

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Citations

Jun 4, 2020·Biomimetics·Zoran Jakšić, Olga Jakšić

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Methods Mentioned

BETA
AFM
X-ray
optical microscopy

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