Microfluidic large-scale integration: the evolution of design rules for biological automation.

Jessica Melin, Stephen R Quake
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引用次数: 709

Abstract

Microfluidic large-scale integration (mLSI) refers to the development of microfluidic chips with thousands of integrated micromechanical valves and control components. This technology is utilized in many areas of biology and chemistry and is a candidate to replace today's conventional automation paradigm, which consists of fluid-handling robots. We review the basic development of mLSI and then discuss design principles of mLSI to assess the capabilities and limitations of the current state of the art and to facilitate the application of mLSI to areas of biology. Many design and practical issues, including economies of scale, parallelization strategies, multiplexing, and multistep biochemical processing, are discussed. Several microfluidic components used as building blocks to create effective, complex, and highly integrated microfluidic networks are also highlighted.

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微流控大规模集成:生物自动化设计规则的演变。
微流控大规模集成是指开发集成了数千个微机械阀门和控制元件的微流控芯片。这项技术被应用于生物和化学的许多领域,是取代当今由流体处理机器人组成的传统自动化范式的候选者。我们回顾了mLSI的基本发展,然后讨论了mLSI的设计原则,以评估当前技术的能力和局限性,并促进mLSI在生物学领域的应用。讨论了许多设计和实际问题,包括规模经济、并行化策略、多路复用和多步生化处理。几个微流控组件用作构建块创建有效的,复杂的,高度集成的微流控网络也被强调。
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