Xiaogang Xue scite author profile

In a basic water-alcohol mixing solution without any other toxically organic solvents, the single crystalline SnO2 nanorods with diameters of 4–15 nm and lengths of 100–200 nm were synthesized using SnCl4 as a precursor. The sensors fabricated from the nanorods exhibited the sensitivity of 31.4 for 300 ppm of ethanol. Both the response and recovery time are short, around 1 s. Moreover, a linear dependence of the sensitivity on the ethanol concentration was observed. These behaviors were well explained by considering the high surface-to-volume ratio of the nanorods.

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Linear ethanol sensing of SnO2 nanorods with extremely high sensitivity

Chen¹,

Nie²,

Xue³

et al. 2006

218

154

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The SnO2 nanorods with a diameter down to 3nm are synthesized through a hydrothermal route and their sensing properties are investigated. The small size is confirmed by the results of x-ray diffraction, transmission electron microscope and Raman scattering spectrum. The sensitivity is up to 83.8 as the nanorod sensor is exposed to 300ppm ethanol vapor in air. Moreover, the linear dependence of the sensitivity on the ethanol concentration is observed for each of the 20 sensors. Compared with the measured results of 80–180nm tin oxide particles, such linear dependence is related to the small size effect.

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Enhancing stability of red perovskite nanocrystals through copper substitution for efficient light-emitting diodes

et al. 2019

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Xiaogang Xue

Synthesis and ethanol sensing characteristics of single crystalline SnO2 nanorods

Linear ethanol sensing of SnO2 nanorods with extremely high sensitivity

Enhancing stability of red perovskite nanocrystals through copper substitution for efficient light-emitting diodes

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