Controlled fabrication of gold nanotip arrays by nanomolding-necking technology
GX Han and YP Wu and WD Yan and LQ Shui and XZ Jia and EL Gao and MQ Jiang and Z Liu, NANOTECHNOLOGY, 31, 144001 (2020).
DOI: 10.1088/1361-6528/ab62cb
The fabrication of nanotips has been driven by the increasing industrial demands in developing high-performance multifunctional nanodevices. In this work, we proposed a controlled, rapid as well as low cost nanomolding-necking technology to fabricate gold nanotips arrays. The geometries of gold nanotips having cone angle range of similar to 28-77 degrees and curvature radii of <5 nm can be prepared by tailoring the diameters of raw nanorods in nanomolding process or modulating the necking temperature. Molecular dynamics simulation reveals that the formation of the nanotip geometry is determined by the interplay between dislocation-based and diffusion-based deformation mechanisms, intrinsically arising from the nonlinear dependence of atom diffusion on temperature and sample size. The good controllability, mass production and low cost of the developed nanomolding-necking technology make it highly promising in developing nanodevices for a wide range of applications, such as probing, sensing, antireflection coating and nanoindentation.
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