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Thermofluidic chip containing virtual thermal wells

Engineering biology Pub Date : 2019-03-11 DOI:10.1049/enb.2018.5010
Andrew J. Ferguson, Matthew J. Hayes, Blair C. Kirkpatrick, Yen-chun Lin, Vijay Narayan, Albert Prak
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引用次数: 2

Abstract

The authors describe a thermofluidic chip on which microscale islands of controlled temperature are formed within an open fluidic environment. The chip forms part of the authors’ technology for thermally controlled DNA synthesis, whereby the site-specific temperature control enables site-specific addressability of chemical reactions, for example, related to the phosphoramidite cycle. Here, the authors discuss the principle of the chip, supporting the thermal well concept by means of simulations as well as by showing a prototype thermal array device.

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包含虚拟热阱的热流体芯片
作者描述了一种热流体芯片,在该芯片上,在开放的流体环境中形成了温度可控的微型岛。该芯片是作者热控DNA合成技术的一部分,通过该技术,位点特定的温度控制能够实现化学反应的位点特定寻址能力,例如与磷酰胺循环有关的化学反应。在这里,作者讨论了芯片的原理,通过模拟以及展示原型热阵列器件来支持热阱概念。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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Engineering biology
Engineering biology
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