利用纳米结构聚噻吩传感器识别挥发性有机化合物

IEEE Sensors, 2005. Pub Date : 2005-10-31 DOI:10.1109/ICSENS.2005.1597668

Bo Li, S. Santhanam, L. Schultz, M. Jeffries‐EL, M. Iovu, G. Sauvé, J. Cooper, R. Zhang, J. C. Revelli, A. Kusne, T. Kowalewski, L. Weiss, R. D. Mccullough, G. Fedder, D. Lambeth, J. Snyder

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引用次数: 8

摘要

新的合成方法使我们能够制造出许多具有不同侧基和端基的半导体聚噻吩聚合物。此外，还合成了将聚噻吩链连接到另一个聚合物链上的共聚物。这种设计自由度为材料的传感性能带来了新的维度。利用多种聚合物制备了单片机微传感器电阻阵列，并在自动化系统中进行了测试。该传感器对各种挥发性有机化合物(VOCs)(包括极性和非极性材料)具有ppm级的灵敏度。不同化学结构的聚合物对不同VOCs具有较强的选择性。通过应用模式识别算法，传感器响应清楚地区分了被测voc，使我们能够推测分子修饰在确定对特定voc的响应中的作用

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Volatile organic compound discrimination using nanostructured polythiophene sensors

New synthesis methods have allowed us to make many semiconducting polythiophenes polymers with different side and end groups. Also, co-polymers combining a polythiophene chain attached to another polymer chain were synthesized. This design freedom brings a new dimensionality to the sensing properties of the materials. Single chip micro sensor resistor arrays, utilizing multiple polymers, were fabricated and then tested in an automated system. The sensors demonstrated ppm level sensitivity to various volatile organic compounds (VOCs) including both polar and non-polar materials. Polymers with different chemical structures show strong selectivity to different VOCs. By applying pattern recognition algorithms, the sensor response clearly discriminates between the tested VOCs allowing us to conjecture as to the role molecular modification have in determining response to specific VOCs

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来源期刊

IEEE Sensors, 2005.

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