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Research Article

In situ atomic-scale analysis of Rayleigh instability in ultrathin gold nanowires

Shang Xu1,§Peifeng Li1,2,§Yang Lu1,3 ( )
Department of Mechanical and Biomedical EngineeringCity University of Hong Kong83 Tat Chee AvenueKowloonHong KongChina
Institute of Applied MechanicsZhejiang UniversityHangzhou310027China
Hong Kong Branch of National Precious Metals Material Engineering Research Center (NPMM)83 Tat Chee AvenueKowloonHong KongChina

§ Shang Xu and Peifeng Li contributed equally to this work.

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Abstract

Comprehensive understanding of the structural/morphology stability of ultrathin (diameter < 10 nm) gold nanowires under real service conditions (such as under Joule heating) is a prerequisite for the reliable implementation of these emerging building blocks into functional nanoelectronics and mechatronics systems. Here, by using the in situ transmission electron microscopy (TEM) technique, we discovered that the Rayleigh instability phenomenon exists in ultrathin gold nanowires upon moderate heating. Through the controlled electron beam irradiation-induced heating mechanism (with < 100 ℃ temperature rise), we further quantified the effect of electron beam intensity and its dependence on Rayleigh instability in altering the geometry and morphology of the ultrathin gold nanowires. Moreover, in situ high-resolution TEM (HRTEM) observations revealed surface atomic diffusion process to be the dominating mechanism for the morphology evolution processes. Our results, with unprecedented details on the atomic-scale picture of Rayleigh instability and its underlying physics, provide critical insights on the thermal/structural stability of gold nanostructures down to a sub-10 nm level, which may pave the way for their interconnect applications in future ultralarge- scale integrated circuits.

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Nano Research
Pages 625-632

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Cite this article:
Xu S, Li P, Lu Y. In situ atomic-scale analysis of Rayleigh instability in ultrathin gold nanowires. Nano Research, 2018, 11(2): 625-632. https://doi.org/10.1007/s12274-017-1667-3

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Received: 24 February 2017
Revised: 27 April 2017
Accepted: 07 May 2017
Published: 15 August 2017
© Tsinghua University Press and Springer-Verlag GmbH Germany 2017