Synthesis, characterizations and improved gas-sensing performance of SnO2 nanospike arrays

Jing Xu; Yansong Li; Hongtao Huang; Yuguang Zhu; Zhuoran Wang; Zhong Xie; Xianfu Wang; Di Chen; Guozhen Shen

doi:10.1039/c1jm13350k

Synthesis, characterizations and improved gas-sensing performance of SnO₂ nanospike arrays

Jing Xu, Yansong Li, Hongtao Huang, Yuguang Zhu, Zhuoran Wang, Zhong Xie, Xianfu Wang, Di Chen^*, Guozhen Shen

^*Corresponding author for this work

Huazhong University of Science and Technology

Research output: Contribution to journal › Article › peer-review

57 Citations (Scopus)

Abstract

Using a tin-oleate complex as the precursor and the capping agent, we successfully synthesized ultrafine SnO₂ nanospike arrays with diameter 6-15 nm and length 150 nm, growing along the [001] direction from a simple hydrothermal route. The as-obtained SnO₂ products were characterized by X-ray powder diffraction, scanning electronic microscopy, transmission electron microscopy, UV-vis absorption spectrum, photoluminescence and Raman spectroscopy. As-synthesized SnO₂ nanospike arrays exhibited improved gas sensing performance as compared to bulk SnO₂ due to the small grain size-distribution and specific surface properties. The detection limits of the sensor were found to be down to 0.5 ppm for acetone, ethanol and 1.0 ppm for methanol with response time as short as 5 s.

Original language	English
Pages (from-to)	19086-19092
Number of pages	7
Journal	Journal of Materials Chemistry
Volume	21
Issue number	47
DOIs	https://doi.org/10.1039/c1jm13350k
Publication status	Published - 21 Dec 2011
Externally published	Yes

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abstract = "Using a tin-oleate complex as the precursor and the capping agent, we successfully synthesized ultrafine SnO2 nanospike arrays with diameter 6-15 nm and length 150 nm, growing along the [001] direction from a simple hydrothermal route. The as-obtained SnO2 products were characterized by X-ray powder diffraction, scanning electronic microscopy, transmission electron microscopy, UV-vis absorption spectrum, photoluminescence and Raman spectroscopy. As-synthesized SnO2 nanospike arrays exhibited improved gas sensing performance as compared to bulk SnO2 due to the small grain size-distribution and specific surface properties. The detection limits of the sensor were found to be down to 0.5 ppm for acetone, ethanol and 1.0 ppm for methanol with response time as short as 5 s.",

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T1 - Synthesis, characterizations and improved gas-sensing performance of SnO2 nanospike arrays

AU - Xu, Jing

AU - Li, Yansong

AU - Huang, Hongtao

AU - Zhu, Yuguang

AU - Wang, Zhuoran

AU - Xie, Zhong

AU - Wang, Xianfu

AU - Chen, Di

AU - Shen, Guozhen

PY - 2011/12/21

Y1 - 2011/12/21

N2 - Using a tin-oleate complex as the precursor and the capping agent, we successfully synthesized ultrafine SnO2 nanospike arrays with diameter 6-15 nm and length 150 nm, growing along the [001] direction from a simple hydrothermal route. The as-obtained SnO2 products were characterized by X-ray powder diffraction, scanning electronic microscopy, transmission electron microscopy, UV-vis absorption spectrum, photoluminescence and Raman spectroscopy. As-synthesized SnO2 nanospike arrays exhibited improved gas sensing performance as compared to bulk SnO2 due to the small grain size-distribution and specific surface properties. The detection limits of the sensor were found to be down to 0.5 ppm for acetone, ethanol and 1.0 ppm for methanol with response time as short as 5 s.

AB - Using a tin-oleate complex as the precursor and the capping agent, we successfully synthesized ultrafine SnO2 nanospike arrays with diameter 6-15 nm and length 150 nm, growing along the [001] direction from a simple hydrothermal route. The as-obtained SnO2 products were characterized by X-ray powder diffraction, scanning electronic microscopy, transmission electron microscopy, UV-vis absorption spectrum, photoluminescence and Raman spectroscopy. As-synthesized SnO2 nanospike arrays exhibited improved gas sensing performance as compared to bulk SnO2 due to the small grain size-distribution and specific surface properties. The detection limits of the sensor were found to be down to 0.5 ppm for acetone, ethanol and 1.0 ppm for methanol with response time as short as 5 s.

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Synthesis, characterizations and improved gas-sensing performance of SnO₂ nanospike arrays

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