Optically Programmable Self-Assembly of Heterogeneous Micro-Components on Unconventional Substrates

2009 IEEE 22nd International Conference on Micro Electro Mechanical Systems Pub Date : 2009-03-27 DOI:10.1109/MEMSYS.2009.4805483

E. Saeedi, J. Etzkorn, L. Draghi, B. Parviz

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引用次数: 3

Abstract

Self-assembly is a promising technique for fast and cost-effective integration of microcomponents especially at smaller scales. Methods are needed to program the self-assembly process so that we can assemble heterogeneous components necessary to build a complex system. Here we present a new method of programming the self-assembly process which is based on optically removing blocking polymer from designated receptor sites. In order to perform the self-assembly process we need to fabricate free-standing microcomponents and templates. Templates were fabricated on both plastic and glass. We have shown successful assembly of four types of silicon microcomponents on plastic. The blocking AZ4620 resist was removed from the designated receptor sites immediately prior to the assembly of the desired microcomponents by using optical masks, UV exposure, and resist developer. 98% yield of proper positioning of microcomponents on a plastic template was achieved within ~10min of pipetting the components onto a template in a fluidic medium.

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异质微元件在非常规基板上的光学可编程自组装

自组装技术是一种极具发展前景的技术，可以快速、经济地集成微型元件，特别是在较小的尺度上。需要对自组装过程进行编程的方法，以便我们可以组装构建复杂系统所需的异构组件。本文提出了一种新的编程自组装过程的方法，该方法基于光学去除指定受体位点上的阻断聚合物。为了进行自组装过程，我们需要制造独立的微组件和模板。模板是在塑料和玻璃上制作的。我们展示了四种硅微元件在塑料上的成功组装。在组装所需的微组分之前，通过光学掩膜、紫外线照射和抗蚀剂显影剂，将阻断AZ4620抗蚀剂从指定的受体位点移除。在流体介质中将微组件移液到模板上的~10min内，塑料模板上微组件的正确定位率达到98%。

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2009 IEEE 22nd International Conference on Micro Electro Mechanical Systems

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