Silicon Nanowire Integrated Electrolyte-Insulator-Semiconductor Sensor with an Above-Nernstian Sensitivity for Bio-Sensing Applications

机译：硅纳米线集成电解液 - 绝缘体 - 半导体传感器，具有用于生物传感应用的内部敏感性的灵敏度

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Highly sensitive electrolyte-insulator-semiconductor (EIS) sensors were realized by the integration of Si nanowires (NWs), which were fabricated by using a simple and economic electroless wet etching technique. EIS sensors with NWs longer than 1 μm were observed to have considerably increased capacitance and high pH sensitivity. The pH sensitivity of the EIS sensor with 3.8 μm long NWs was 60.2 mV/pH, which is higher than the theoretical Nernstian of 59 mV/pH. The EIS sensors with NWs exhibited slightly worse pH hysteresis and drift properties than that of the conventional planar type EIS sensor. The increases in pH sensitivity, hysteresis and drift are attributable to the extended surface area of the EIS sensors enabled by the NWs.

机译：通过使用简单和经济化学的湿法蚀刻技术制造的Si纳米线（NWS）来实现高敏感电解质 - 绝缘体 - 半导体（EIS）传感器。观察到具有超过1μm的NWS的EIS传感器具有显着增加的电容和高pH敏感性。 EIS传感器的pH敏感性为3.8μm长的NWS为60.2mV / pH值，高于59mV / pH的理论Nernstian。具有NWS的EIS传感器表现出略差较差的pH滞后和漂移性能，而不是传统的平面型EIS型传感器。 pH敏感性，滞后和漂移的增加可归因于NWS使能的EIS传感器的扩展表面区域。

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《Materials Research Society Symposium N on One-Dimensional Nanostructured Materials for Energy Conversion and Storage》|2012年||共6页
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Jin Yong Oh; Hyun-June Jang; Won-Ju Cho; Nezih Pala; M. Saif Islam;
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Silicon Nanowire Integrated Electrolyte-Insulator-Semiconductor Sensor with an Above-Nernstian Sensitivity for Bio-Sensing Applications

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