Li Fan scite author profile

A high-performance zinc oxide/tin dioxide (ZnO/SnO2) humidity sensor was developed using a simple solvothermal method. The sensing mechanism of the ZnO/SnO2 humidity sensor was evaluated by analyzing its complex impedance spectra. The experimental results prove that the ZnO/SnO2 composite material has a larger specific surface area than pure SnO2, which allows the composite material surface to adsorb more water to enhance the response of the ZnO/SnO2 humidity sensor. ZnO can also contribute to the generation of oxygen-rich vacancies on the ZnO/SnO2 composite material surface, allowing it to adsorb a large amount of water and rapidly decompose water molecules into conductive ions to increase the response and recovery speed of the ZnO/SnO2 humidity sensor. These characteristics allowed the Z/S-2 humidity sensor to achieve a higher response (1,225,361%), better linearity, smaller hysteresis (6.6%), faster response and recovery speeds (35 and 8 s, respectively), and long-term stability at 11–95% relative humidity. The successful preparation of the ZnO/SnO2 composite material also provides a new direction for the design of SnO2-based resistance sensors with high humidity-sensing performance.

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Effect of steam pretreatment on wood moisture content and characteristics of vacuum drying

Peng

Fan

Yang

et al. 2012

For. Stud. China

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Craft Beer in China

Fan

Shi

Boswell

et al. 2017

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Li Fan

International influence and local response: understanding community involvement in urban heritage conservation in China

Extended petroleum hydrocarbon bioremediation in saline soil using Pt-free multianodes microbial fuel cells

Preparation and Research of a High-Performance ZnO/SnO2 Humidity Sensor

Effect of steam pretreatment on wood moisture content and characteristics of vacuum drying

Craft Beer in China

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