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Bridging between nano- and micro-scales for system integration: controlled capillary force-driven self assembly

机译：在纳米级和微米级之间架桥，实现系统集成：受控的毛细管力驱动的自组装

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We present self-assembly methods which span some six orders of magnitude in size, from molecular monolayers to millimeter-scale structures. The method is based on the use of self-assembled monolayers which selectively modify the surface energy of Si and/or Au. This surface energy modification allows microscale droplets of a macromolecule, or polymer to selectively assemble onto regions pre-defined by microfabrication methods. Finally, liquid polymer interactions result in capillary forces to self-assemble 10-100 /spl mu/m sized parts into mm-scale structures. Thus we demonstrate an integration method using self-assembly which bridges between nano and micro scales.

机译：我们提出了自组装方法，其范围从分子单分子层到毫米级结构，大小大约六个数量级。该方法基于使用自组装的单层，其选择性地改变了Si和/或Au的表面能。这种表面能的改变使得大分子或聚合物的微滴能够选择性地组装在通过微细加工方法预定义的区域上。最后，液体聚合物的相互作用导致毛细作用力将10-100 / spl mu / m大小的零件自组装成毫米级结构。因此，我们展示了一种使用自组装的集成方法，该方法在纳米级和微米级之间架起桥梁。

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《》|2005年|P.354-357|共4页
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Morris; C.J.; Ho; H.; Parviz; B.A.;
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中图分类工业技术;
关键词
monolayers; polymers; self-assembly; surface energy; 10 to 100 micron; Au; Si; capillary force-driven self assembly; liquid polymer interactions; microfabrication; millimeter-scale structures; molecular monolayers; surface energy; system integration;

机译：单层;聚合物;自组装;表面能; 10至100微米; Au; Si;毛细管力驱动的自组装;液体聚合物相互作用;微加工;毫米级结构;分子单层;表面能;系统集成;

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专利

1. Micro-scale metal contacts for capillary force-driven self-assembly [J] . Morris CJ, Parviz BA Journal of Micromechanics and Microengineering . 2008,第1期

机译：微型金属触点，用于毛细管力驱动的自组装
2. Micro-scale metal contacts for capillary force-driven self-assembly [J] . Christopher J. Morris, Babak A. Parviz Journal of Micromechanics and Microengineering . 2008,第1期

机译：微型金属触点，用于毛细管力驱动的自组装
3. Controlled evaporative self-assembly of polymer nanoribbons using oscillating capillary bridges [J] . Choudhary Satyan, Crosby Alfred J. Journal of Polymer Science, Part B. Polymer Physics . 2018,第23期

机译：使用振荡毛细管桥接控制聚合物纳米杆的蒸发自组装
4. Bridging Between Nano- and Micro-Scales For System Integration: Controlled Capillary Force-Driven Self Assembly [C] . Christopher J. Morris, Harvey Ho, Babak A. Parviz IEEE Conference on Nanotechnology . 2005

机译：系统集成的纳米和微尺度之间的桥接：受控毛细管力驱动的自组装
5. Nano and Micro-scale Self-assembly for Heterogeneous Integration on Unconventional Surfaces. [D] . Saeedi, Ehsan. 2010

机译：纳米和微米级自组装，用于非常规表面上的异构集成。
6. Oxide-Oxide Thermocompression Direct Bonding Technologies with Capillary Self-Assembly for Multichip-to-Wafer Heterogeneous 3D System Integration [O] . Takafumi Fukushima, Hideto Hashiguchi, Hiroshi Yonekura, 2016

机译：带有毛细管自组装的氧化物-氧化物热压直接键合技术用于多芯片至晶圆异质3D系统集成
7. Oxide-Oxide Thermocompression Direct Bonding Technologies with Capillary Self-Assembly for Multichip-to-Wafer Heterogeneous 3D System Integration [O] . Takafumi Fukushima, Hideto Hashiguchi, Hiroshi Yonekura, 2016

机译：具有毛细管自组装的氧化物氧化物热压直接键合技术，用于多芯片到晶片的异构3D系统集成

Bridging between nano- and micro-scales for system integration: controlled capillary force-driven self assembly

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