生物机械系统满足芯片上的实验室:硅MEMS和NEMS在聚合物微流体中的异质集成

Proceedings of the 5th Electronics System-integration Technology Conference (ESTC) Pub Date : 2014-11-24 DOI:10.1109/ESTC.2014.6962736

E. Andreassen, M. Mielnik

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引用次数: 1

摘要

我们提出了一种新的异质集成方法，该方法可以将硅基微流控元件直接集成到注射成型的聚合物芯片实验室(LOC)中。集成是作为注射成型过程的一部分进行的，在聚合物和硅芯片之间形成直接流体连接，同时将硅芯片嵌入聚合物芯片中。我们已经证明，这种流体结可以承受至少3巴的液体压力。采用这种集成方法，可以使硅片与聚合物片之间的流体界面紧凑，无死体积。该方法为大规模制造高功能、异构的LOC系统打开了大门，该系统包含MEMS和NEMS组件，如集成在聚合物芯片中的生物传感器和致动器。

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BioMEMS meets lab-on-a-chip: Heterogeneous integration of silicon MEMS and NEMS in polymer microfluidics

We present a new heterogeneous integration method which enables direct incorporation of silicon-based microfluidic components in an injection-moulded polymer lab-on-a-chip (LOC). The integration is performed as part of the injection moulding process, forming direct fluidic junctions between the polymer and the silicon chip while embedding the silicon chip in the polymer chip. We have demonstrated that such fluidic junctions can withstand at least 3 bars of liquid pressure. With this integration method, the fluidic interface between the silicon chip and the polymer chip can be made compact and free of dead-volume. The method opens for mass fabrication of highly functional, heterogeneous LOC systems containing MEMS and NEMS components such as biosensors and actuators integrated in the polymer chip.

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Proceedings of the 5th Electronics System-integration Technology Conference (ESTC)

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