Non-linear Effects in Hydrogel-based Chemical Sensors: Experiment and Modeling

Margarita Guenther; Gerald Gerlach; Thomas Wallmersperger

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Non-linear Effects in Hydrogel-based Chemical Sensors: Experiment and Modeling

机译：基于水凝胶的化学传感器的非线性效应：实验和建模

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'Stimuli-responsive' or 'smart' hydrogels are capable of reversibly converting chemical energy into mechanical energy and therefore they are widely used as sensitive materials for chemical sensors. However, non-linear effects such as hysteresis and drift are observed in the swelling behavior of the hydrogels, complicating the calibration procedure for the sensor and affecting the signal reproducibility. In the present work, in order to realize pH and temperature sensors with high signal reproducibility and high long-term stable sensor sensitivity, the complicated kinetics of gel swelling/deswelling processes has been analyzed and the origin of the hysteresis non-linearities has been elucidated.

机译：“刺激响应”或“智能”水凝胶能够将化学能可逆地转化为机械能，因此被广泛用作化学传感器的敏感材料。但是，在水凝胶的膨胀行为中会观察到非线性效应，例如磁滞和漂移，这会使传感器的校准过程变得复杂，并影响信号的可重复性。在目前的工作中，为了实现具有高信号重现性和高长期稳定的传感器灵敏度的pH和温度传感器，已经分析了凝胶溶胀/溶胀过程的复杂动力学，并阐明了滞后非线性的起源。。

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来源
《Journal of intelligent material systems and structures 》 |2009年第8期| 949-961| 共13页
作者
Margarita Guenther; Gerald Gerlach; Thomas Wallmersperger;
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作者单位

Solid State Electronics Laboratory (IFE), Dresden University of Technology, Helmholtzstr 10, 01069 Dresden, Germany;

Solid State Electronics Laboratory (IFE), Dresden University of Technology, Helmholtzstr 10, 01069 Dresden, Germany;

Institute for Statics and Dynamics of Aerospace Structures, Universitaet Stuttgart, Pfaffenwaldring 27, 70569 Stuttgart, Germany;

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正文语种 eng
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关键词
chemical sensor; hydrogel; temperature-sensitive; pH-sensitive; swelling behavior;

机译：化学传感器水凝胶温度敏感pH敏感;膨胀行为;

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Non-linear Effects in Hydrogel-based Chemical Sensors: Experiment and Modeling

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