C Wang scite author profile

C Wang

2Publications

191Citation Statements Received

91Citation Statements Given

How they've been cited

264

183

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Affiliations

Institute of Physics, Hunan University

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Fast humidity sensors based on CeO₂nanowires

Wang

et al. 2007

Nanotechnology

139

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Fast humidity sensors are reported that are based on CeO2 nanowires synthesized by a hydrothermal method. Both the response and recovery time are about 3 s, and are independent of the humidity. The sensitivity increases gradually as the humidity increases, and is up to 85 at 97% RH. The resistance decreases exponentially with increasing humidity, implying ion-type conductivity as the humidity sensing mechanism. A model based on the morphology and surface energy of the nanowires is given to explain these results further. Our experimental results indicate a pathway to improving the performance of humidity sensors.

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Surface accumulation conduction controlled sensing characteristic of p-type CuO nanorods induced by oxygen adsorption

et al. 2007

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P-type CuO nanorods were synthesized by a hydrothermal method and the ethanol-sensing properties of sensors based on CuO were investigated. The sensor resistance increased when it was exposed to ethanol and decreased in the air, which is contrary to the case for sensors realized from n-type semiconductor. The resistance of the CuO-based sensor was about 2 kΩ in air and 6 kΩ in ethanol vapour with concentration of 2000 ppm. Such a sensing property is attributed to surface accumulation conduction. Sensors based on CuO nanorods have potential applications in detecting ethanol in low concentration.

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C Wang

Fast humidity sensors based on CeO₂nanowires

Surface accumulation conduction controlled sensing characteristic of p-type CuO nanorods induced by oxygen adsorption

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C Wang

Fast humidity sensors based on CeO2nanowires

Surface accumulation conduction controlled sensing characteristic of p-type CuO nanorods induced by oxygen adsorption

Contact Info

Product

Resources

About

Fast humidity sensors based on CeO₂nanowires