一种采用聚对二甲苯膜和气动驱动的紧凑型耐化学物质微阀阵列

Zhishan Hua, Onnop Srivannavit, Yongmei Xia, E. Gulari
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引用次数: 8

摘要

采用硅/玻璃本体微加工和新型聚对二甲苯键合技术,设计并制作了气动微阀阵列。阀门膜由聚对二甲苯制成,因此具有非常紧凑的尺寸(300微米× 300微米)和优异的耐化学性。对阀门的运行进行了表征,揭示了驱动和进口压力等几个参数对阀门运行的影响。在15.5psi的进口压力下,该阀门在开启状态下的流量高达0.33ml/min,泄漏率非常低。利用提出的新型控制逻辑,微制造阀阵列装置有望非常适合集成芯片实验室系统中的流体操纵,其中涉及腐蚀性化学品和需要高通量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Compact Chemical-Resistant Microvalve Array Using Parylene Membrane and Pneumatic Actuation
A pneumatic microvalve array was designed and fabricated using silicon/glass bulk micromachining and a new parylene bonding technique. The valve membrane is made of parylene, thus has very compact size (300 µm x 300 µm) and excellent chemical resistance. The operation of valves was characterized to reveal the effects of several parameters such as actuation and inlet pressure. The valve demonstrates a flow rate as high as 0.33ml/min in open state with 15.5psi inlet pressure, and very low leaking rate. With the proposed novel control logic, the microfabricated valve array device is expected to be very suitable for fluidic manipulation in integrated lab-on-a-chip systems in which aggressive chemicals are involved and high throughputs are required.
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