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Interactive Manipulation of Nonconductive Microparticles in Scanning Electron Microscope by a Virtual Nano-hand Strategy.


ABSTRACT: Micro/nano-manipulation is the fabrication of particular constructs on devices at the micro/nano-scale. Precise manipulation of microparticles is one of the key technological difficulties in manufacturing micro/nano-scale components. Based on scanning electron microscopy and nanomanipulator, this paper adopts a direct push method to operate randomly distributed microparticles into ordered structures. A two-probe interaction strategy is proposed to enable microparticle movements in all directions efficiently and avoid scratching the substrate surface. To overcome the uncertainties in micromanipulation, a virtual nano-hand strategy was also implemented: long-range advance of each microparticle is realized by multiple single-step pushes, whose trajectory is theoretically analyzed. The pushes are well programmed to imitate effects of a more powerful and determined hand. Experimental results show that the theoretical single-step motion trajectory is in line with actual operation, and the proposed strategy can ensure precise operation of the microparticles in all directions and improve reliability and effectiveness of operation.

SUBMITTER: Liu M 

PROVIDER: S-EPMC6843255 | biostudies-literature | 2019 Oct

REPOSITORIES: biostudies-literature

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Interactive Manipulation of Nonconductive Microparticles in Scanning Electron Microscope by a Virtual Nano-hand Strategy.

Liu Mei M   Cheng Kai K   Qin Xiangzheng X   Wei Zhenzhong Z   Borom Brandon B   Su Weilin W   Chen Jinbo J   Feng Yunpeng Y   Wang Tao T   Rao Jinjun J  

Micromachines 20191002 10


Micro/nano-manipulation is the fabrication of particular constructs on devices at the micro/nano-scale. Precise manipulation of microparticles is one of the key technological difficulties in manufacturing micro/nano-scale components. Based on scanning electron microscopy and nanomanipulator, this paper adopts a direct push method to operate randomly distributed microparticles into ordered structures. A two-probe interaction strategy is proposed to enable microparticle movements in all directions  ...[more]

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