Micro and Nanorobotic Assembly Using Dielectrophoresis

机译：使用介电泳的微和纳米机器人组装

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The contact phase of an assembly task involving micro and nano objects is complicated by the presence of surface and intermolecular forces such as electrostatic, surface-tension and Van der Waals forces. Assembly strategies must account for the presence of these forces in order to guarantee successful repeatable micro and nanoassemblies with high precision. A detailed model for this electrostatic interaction is developed and analyzed. Based on the results of this analysis, dielectrophoretic assembly principles of MEMS/NEMS devices are proposed and experimentally verified with microtweezers for micro Ni parts and with nanoelectrodes fabricated with electron-beam lithography for carbon nanotube assembly. The successful manipulation and assembly of single carbon nanotubes (CNTs) using dielectrophoretic forces produced by nanoelectrodes will lead to a higher integration of CNTs into both nanoelectronics and NEMS.

机译：由于存在表面力和分子间力（例如静电力，表面张力和范德华力），因此涉及微米和纳米物体的组装任务的接触阶段变得很复杂。组装策略必须考虑这些力的存在，以确保成功地重复精度高的微型和纳米组装。开发并分析了这种静电相互作用的详细模型。基于分析的结果，提出了MEMS / NEMS器件的介电泳组装原理，并用微镊子对微型Ni部件进行了实验验证，并用电子束光刻技术制造的纳米电极对碳纳米管进行了组装。利用纳米电极产生的介电泳力成功地操纵和组装单个碳纳米管（CNT），将导致CNT更高程度地集成到纳米电子学和NEMS中。

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来源
《Robotics: Science and Systems Conference; 20050608-11; Cambridge,MA(US)》|2005年|P.327-334|共8页
会议地点 CambridgeMA(US)
作者
Arunkumar Subramanian; Barmeshwar Vikramaditya; Lixin Dong; Dominik Bell; Bradley J. Nelson;
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作者单位

Institute of Robotics and Intelligent Systems (IRIS) at the Swiss Federal Institute of Technology (ETH), Zuerich;

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会议组织
原文格式 PDF
正文语种 eng
中图分类机器人技术;
关键词
microassembly; nanoassembly; MEMS; NEMS; dielectrophoresis; carbon nanotubes;

机译：微装配;纳米装配; MEMS; NEMS;介电泳;碳纳米管;

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2. Dual-MWCNT Probe Thermal Sensor Assembly and Evaluation Based on Nanorobotic Manipulation inside a Field-Emission-Scanning Electron Microscope: [J] . Zhan Yang, Pengbo Wang, Yajing Shen, International Journal of Advanced Robotic Systems . 2015,第3期

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3. Dual-MWCNT Probe Thermal Sensor Assembly and Evaluation Based on Nanorobotic Manipulation inside a Field-Emission-Scanning Electron Microscope [J] . Yang Zhan, Wang Pengbo, Shen Yajing, International Journal of Advanced Robotic Systems . 2015,第期

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4. Micro and Nanorobotic Assembly Using Dielectrophoresis [C] . Arunkumar Subramanian, Barmeshwar Vikramaditya, Lixin Dong, Robotics: Science and Systems Conference; 20050608-11; Cambridge,MA(US) . 2005

机译：使用介电泳的微和纳米机器人组装
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Micro and Nanorobotic Assembly Using Dielectrophoresis

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