一种带有气泡成核芯的微泡压力传感器

2014 IEEE 27th International Conference on Micro Electro Mechanical Systems (MEMS) Pub Date : 2014-03-13 DOI:10.1109/MEMSYS.2014.6765584

Lawrence Yu, E. Meng

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引用次数: 10

摘要

为了在潮湿环境下实现低功耗工作，研制了一种微通道微泡(μB)换能器(μBPT)。在这项工作中，我们研究了μB在传感器结构和压力传感器中的动态。该传感器利用电化学阻抗(EI)测量来监测静水压力变化引起的μB尺寸变化的瞬时响应。我们通过电解和实时压力跟踪(-93 Ω/mmHg / 0-350 mmHg)证明了μB按需成核。可重复、高效电解生成稳定微泡(<;1.5 nL <;利用μBNC结构集中附着在微通道上，实现了2%的尺寸变化。生物相容性结构(只有聚二甲苯和铂)，占地面积小，功耗低(<;60 μW)，以及基于液体的操作μBPTs是体内压力监测应用的理想选择。

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A microbubble pressure transducer with bubble nucleation core

A microchannel-based microbubble (μB) transducer (μBPT) having a μB nucleation core (μBNC) was developed to achieve low power operation in wet environments. In this work, we investigate μB dynamics within the transducer structure and pressure transduction. The transducer leverages electrochemical impedance (EI)-based measurement to monitor the instantaneous response of μB size changes induced by hydrostatic pressure changes. We demonstrated on-demand μB nucleation by electrolysis and real-time pressure tracking (-93 Ω/mmHg over 0-350 mmHg). Repeatable, efficient electrolytic generation of stable microbubbles (<; 1.5 nL with <; 2% size variation) was achieved using a μBNC structure attached centrally to the microchannel. Biocompatible construction (only Parylene and Pt), small footprint, low power consumption (<; 60 μW), and liquid-based operation of μBPTs are ideal for in vivo pressure monitoring applications.

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来源期刊

2014 IEEE 27th International Conference on Micro Electro Mechanical Systems (MEMS)

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