Vacuum microfabrication on live fruit fly

A. J. Shum, B. Parviz
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引用次数: 7

Abstract

The survival rate of Drosophila when exposed to moderate vacuum levels is studied and it is established that the organism can be subjected to 55 mTorr vacuum for periods as long as 70 minutes with a significant rate of survival (>20%). This finding opens a number of new opportunities for performing fabrication processes, similar to the ones performed on a silicon wafer, on a fruit fly as a live substrate. As a model microfabrication process, it is shown how a collection of Drosophila can be made to self-assemble into an array of microfabricated recesses on a silicon wafer and how a shadow mask can be used to thermally evaporate 100 nm of indium on flies. The procedure resulted in the production of a number of live flies with 50 mum indium micro patterns on their wings. The first demonstration of vacuum microfabrication on a live organism provides the first step towards the development of a hybrid biological/solid-state manufacturing process for complex microsystems.
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活体果蝇的真空微加工
研究了果蝇在中等真空水平下的存活率,并确定该生物可以在55 mTorr的真空条件下持续长达70分钟,存活率显著(>20%)。这一发现为执行制造工艺提供了许多新的机会,类似于在硅片上执行的工艺,在果蝇上作为活基板。作为一个微加工过程的模型,它展示了如何将果蝇的集合自组装成硅晶圆上的微加工凹陷阵列,以及如何使用阴影掩膜在苍蝇身上热蒸发100纳米的铟。这一过程产生了许多活的苍蝇,它们的翅膀上有50个铟微图案。在活生物体上的真空微制造的首次演示为复杂微系统的混合生物/固态制造工艺的发展提供了第一步。
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