具有集成凹槽的悬臂谐振式气体传感器，用于局部传感层沉积

2013 IEEE SENSORS Pub Date : 2013-12-19 DOI:10.1109/ICSENS.2013.6688335

C. Carron, P. Getz, J.-J. Su, D. Gottfried, O. Brand, F. Josse, Stephen M. Heinrich

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引用次数: 3

摘要

本研究提出了具有集成凹槽的质量敏感锤头谐振器作为气相化学微传感器平台。在谐振器的头部区域蚀刻凹槽，通过喷墨打印在局部沉积化学敏感聚合物。这允许传感膜被限制在以下区域:(a)最有效地检测质量载荷和(b)在谐振器的面内振动期间不受应变。由于第二点，即使在硅厚度为9-12 μm的谐振器上覆盖5 μm厚的聚合物涂层，也几乎不会影响空气中的q因子。与均匀涂层器件相比，这意味着更高的频率稳定性和最终更高的传感器分辨率。

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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Cantilever-based resonant gas sensors with integrated recesses for localized sensing layer deposition

This work presents mass-sensitive hammerhead resonators with integrated recesses as a gas-phase chemical microsensor platform. Recesses are etched into the head region of the resonator to locally deposit chemically sensitive polymers by ink-jet printing. This permits the sensing films to be confined to areas that (a) are most effective in detecting mass loading and (b) are not strained during the in-plane vibrations of the resonator. As a result of the second point, even 5-μm thick polymer coatings on resonators with a 9-12 μm silicon thickness barely affect the Q-factor in air. This translates into higher frequency stability and ultimately higher sensor resolution compared to uniformly coated devices.

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2013 IEEE SENSORS

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