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Stable nanomanipulation using atomic force microscopy: A virtual nanohand for a robotic nanomanipulation system.

机译：使用原子力显微镜进行稳定的纳米操作：用于机器人纳米操作系统的虚拟纳米手。

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Atomic force microscopy (AFM) has become a promising tool for not only imaging and measuring matter at the nanoscale [1] but also manipulating and fabricating nano-objects [2], [3]. AFM offers multiple working modes for sensing and actuating with one versatile probe. It can easily switch between scanning and manipulating a nano-object either in an ambient atmosphere or in a liquid environment [4]. One of the important nanoparticle manipulations is the nanoparticle transfer, in which two movements of grasping and transferring are involved. Although the two movements are directly in conflict with the single probe-based mechanism, an AFM-based robotic nanomanipulation system with a virtual nanohand has been developed to solve the conflicting issue of movements. In this article, we show how an AFM-based virtual nanohand is designed to grasp and transfer a nanoparticle at the nanometer scale stably, efficiently, and effectively.

机译：原子力显微镜（AFM）已成为一种有前途的工具，不仅可以在纳米级成像和测量物质[1]，而且可以操纵和制造纳米物体[2]，[3]。 AFM提供了多种工作模式，可使用一根多功能探头进行感应和促动。它可以在环境大气或液体环境中轻松地在扫描和操作纳米物体之间切换[4]。纳米粒子转移是一种重要的纳米粒子操作，其中涉及抓握和转移两个动作。尽管两个机芯直接与基于单个探针的机制发生冲突，但已经开发了具有虚拟纳米手的基于AFM的机器人纳米操纵系统来解决机芯的冲突问题。在本文中，我们展示了如何设计基于AFM的虚拟纳米手，以稳定，高效和有效地捕获和转移纳米级的纳米粒子。

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Wang ZY(王智宇); Liu LQ(刘连庆); Wang YC(王越超); Wang ZD(王志东); Xi N(席宁); Hou J(侯静); Wang WX(王文学); Yuan S(袁帅);
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1. Stable Nanomanipulation Using Atomic Force Microscopy: A virtual nanohand for a robotic nanomanipulation system. [J] . Wang Z., Liu L., Wang Y., Nanotechnology Magazine, IEEE . 2013,第4期

机译：使用原子力显微镜进行稳定的纳米操作：用于机器人纳米操作系统的虚拟纳米手。
2. Atomic Force Microscopy Nanomanipulation by Confocal Raman Multiwavelength Spectroscopy: Application at the Monitoring of Resonance Profile Excitation Changes of Manipulated Carbon Nanotube [J] . DOrlando Angelina, Mevellec Jean-Yves, Louarn Guy, The journal of physical chemistry, C. Nanomaterials and interfaces . 2020,第4期

机译：Acocal拉曼的原子力显微镜纳米尺寸纳米尺寸纳米尺寸纳米尺寸：在操纵碳纳米管的共振曲线励磁改变监测时应用
3. Atomic force microscopy nanomanipulation of shape persistent, spherical, self-assembled aggregates of gold nanoparticles [J] . Van Herrikhuyzen J., Willems R., George S.J., ACS nano . 2010,第11期

机译：原子力显微镜对金纳米颗粒形状持久，球形，自组装聚集体的纳米处理
4. Nanomanipulation of graphene using Atomic Force Microscopy [C] . Zhuxin Dong, Wejinya U.C., Albrecht A.M. IEEE International Conference on Nanotechnology . 2013

机译：使用原子力显微镜对石墨烯进行纳米处理
5. Atomic force microscope based automated and teleoperated mechanical micro/nanomanipulation. [D] . Onal, Cagdas Denizel. 2009

机译：基于原子力显微镜的自动和遥控机械微/纳微钳制。
6. Multimodal optical workstation for simultaneous linear nonlinear microscopy and nanomanipulation: Upgrading a commercial confocal inverted microscope [O] . Manoj Mathew, Susana I. C. O. Santos, Dobryna Zalvidea, -1

机译：多模态光学工作站可同时进行线性非线性显微镜和纳米操作：升级商用共聚焦倒置显微镜
7. Stable nanomanipulation using atomic force microscopy: A virtual nanohand for a robotic nanomanipulation system. [O] . Wang Yuechao, Yuan Shuai, Wang Wenxue, 2013

机译：使用原子力显微镜的稳定纳米操作：用于机器人纳米操纵系统的虚拟纳米手。
8. Atomic Force MIcroscopy and Scanning Tunneling Microscopy with a Combination Atomic Force Microscope/Scanning Tunneling Microscopy [R] . Marti, O., Drake, B., Gould, S., 1988

机译：原子力显微镜和扫描隧道显微镜与组合原子力显微镜/扫描隧道显微镜

Stable nanomanipulation using atomic force microscopy: A virtual nanohand for a robotic nanomanipulation system.

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