纳米线弹性性质的一般性描述。

A generalized description of the elastic properties of nanowires.

作者信息

Heidelberg Andreas, Ngo Lien T, Wu Bin, Phillips Mick A, Sharma Shashank, Kamins Theodore I, Sader John E, Boland John J

机构信息

Department of Chemistry and the Center for Research on Adaptive Nanostructures and Nanodevices (CRANN), Trinity College Dublin, Dublin 2, Ireland.

出版信息

Nano Lett. 2006 Jun;6(6):1101-6. doi: 10.1021/nl060028u.

DOI:10.1021/nl060028u

PMID:16771561

Abstract

We report a model of nanowire (NW) mechanics that describes force vs displacement curves over the entire elastic range for diverse wire systems. Due to the clamped-wire measurement configuration, the force response in the linear elastic regime can be linear or nonlinear, depending on the system and the wire displacement. For Au NWs the response is essentially linear since yielding occurs prior to the onset of the inherent nonlinearity, while for Si NWs the force response is highly nonlinear, followed by brittle fracture. Since the method describes the entire range of elastic deformation, it unequivocally identifies the yield points in both of these materials.

摘要

我们报告了一种纳米线（NW）力学模型，该模型描述了各种线系统在整个弹性范围内的力与位移曲线。由于采用夹线测量配置，线性弹性区域中的力响应可能是线性的，也可能是非线性的，这取决于系统和线的位移。对于金纳米线，由于在固有非线性开始之前就发生了屈服，其响应基本上是线性的；而对于硅纳米线，力响应是高度非线性的，随后是脆性断裂。由于该方法描述了弹性变形的整个范围，因此它明确地确定了这两种材料中的屈服点。

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纳米线弹性性质的一般性描述。

A generalized description of the elastic properties of nanowires.

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