A. R. Beaber scite author profile

Silicon crystals have an important role in the electronics industry, and silicon nanoparticles have applications in areas such as nanoelectromechanical systems, photonics and biotechnology. However, the elastic-plastic transition observed in silicon is not fully understood; in particular, it is not known if the plasticity of silicon is determined by dislocations or by transformations between phases. Here, based on compression experiments and molecular dynamics simulations, we show that the mechanical properties of bulk silicon and silicon nanoparticles are significantly different. We find that bulk silicon exists in a state of relative constraint, with its plasticity dominated by phase transformations, whereas silicon nanoparticles are less constrained and display dislocation-driven plasticity. This transition, which we call deconfinement, can also explain the absence of phase transformations in deformed silicon nanowedges. Furthermore, the phenomenon is in agreement with effects observed in shape-memory alloy nanopillars, and provides insight into the origin of incipient plasticity.

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A brittleness transition in silicon due to scale

Stauffer

Beaber

Tymiak

2011

J. Mater. Res.

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Small size strength dependence on dislocation nucleation

et al. 2010

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Smaller is tougher

Beaber

Nowak

Ugurlu

et al. 2011

Philosophical Magazine

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Strain-hardening in submicron silicon pillars and spheres

et al. 2012

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A. R. Beaber

Deconfinement leads to changes in the nanoscale plasticity of silicon

A brittleness transition in silicon due to scale

Small size strength dependence on dislocation nucleation

Smaller is tougher

Strain-hardening in submicron silicon pillars and spheres

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