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使用压阻式微传感器对pH值和离子强度响应型聚电解质水凝胶进行的体外研究。

In-vitro investigations of a pH- and ionic-strength-responsive polyelectrolytic hydrogel using a piezoresistive microsensor.

作者信息

Schulz Volker, Guenther Margarita, Gerlach Gerald, Magda Jules J, Tathireddy Prashant, Rieth Loren, Solzbacher Florian

机构信息

Solid-State Electronics Laboratory (IFE), Technische Universität Dresden, Helmholtzstr. 10, 01069 Dresden, Germany.

出版信息

Smart Struct Mater Nondestruct Eval Health Monit Diagn. 2009 Apr 6;7287. doi: 10.1117/12.816478.

Abstract

Environmental responsive or smart hydrogels show a volume phase transition due to changes of external stimuli such as pH or ionic strength of an ambient solution. Thus, they are able to convert reversibly chemical energy into mechanical energy and therefore they are suitable as sensitive material for integration in biochemical microsensors and MEMS devices. In this work, micro-fabricated silicon pressure sensor chips with integrated piezoresistors were used as transducers for the conversion of mechanical work into an appropriate electrical output signal due to the deflection of a thin silicon bending plate. Within this work two different sensor designs have been studied. The biocompatible poly(hydroxypropyl methacrylate-N,N-dimethylaminoethyl methacrylate-tetra-ethyleneglycol dimethacrylate) (HPMA-DMA-TEGDMA) was used as an environmental sensitive element in piezoresistive biochemical sensors. This polyelectrolytic hydrogel shows a very sharp volume phase transition at pH values below about 7.4 which is in the range of the physiological pH. The sensor's characteristic response was measured in-vitro for changes in pH of PBS buffer solution at fixed ionic strength. The experimental data was applied to the Hill equation and the sensor sensitivity as a function of pH was calculated out of it. The time-dependent sensor response was measured for small changes in pH, whereas different time constants have been observed. The same sensor principal was used for sensing of ionic strength. The time-dependent electrical sensor signal of both sensors was measured for variations in ionic strength at fixed pH value using PBS buffer solution. Both sensor types showed an asymmetric swelling behavior between the swelling and the deswelling cycle as well as different time constants, which was attributed to the different nature of mechanical hydrogel-confinement inside the sensor.

摘要

环境响应型或智能水凝胶由于外部刺激(如周围溶液的pH值或离子强度)的变化而呈现体积相变。因此,它们能够将化学能可逆地转化为机械能,所以适合作为敏感材料集成到生化微传感器和微机电系统(MEMS)设备中。在这项工作中,带有集成压阻器的微加工硅压力传感器芯片被用作换能器,用于将由于薄硅弯曲板的挠曲而产生的机械功转换为适当的电输出信号。在这项工作中,研究了两种不同的传感器设计。生物相容性聚(甲基丙烯酸羟丙酯-N,N-二甲基氨基乙基甲基丙烯酸酯-四乙二醇二甲基丙烯酸酯)(HPMA-DMA-TEGDMA)被用作压阻式生化传感器中的环境敏感元件。这种聚电解质水凝胶在pH值低于约7.4时表现出非常尖锐的体积相变,该pH值处于生理pH范围内。在固定离子强度下,体外测量了传感器对PBS缓冲溶液pH值变化的特征响应。将实验数据应用于希尔方程,并据此计算出传感器灵敏度作为pH值的函数。测量了pH值微小变化时传感器随时间的响应,观察到了不同的时间常数。相同的传感器原理用于检测离子强度。使用PBS缓冲溶液在固定pH值下测量了两种传感器随离子强度变化的随时间变化的电传感器信号。两种传感器类型在溶胀和去溶胀循环之间均表现出不对称的溶胀行为以及不同的时间常数,这归因于传感器内部机械水凝胶限制的不同性质。

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