Hydrothermal self-assembly of novel porous flower-like SnO 2 architecture and its application in ethanol sensor

Jiang, Xiaoxue; Ma, Shenglin; Sun, Aimin; Zhang, Z.M.; Jin, Wei; Wang, T.T.; Li, W.Q.; Xu, Xiao Li; Luo, Jing; Cheng, Liang; Mao, Y.Z.; Zhang, M.

doi:10.1016/j.apsusc.2015.08.014

Cited by 25 publications

(2 citation statements)

References 33 publications

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“…Due to their excellent properties and novel applications in gas sensors, people have made great efforts to develop different nanostructured materials to improve the performances [6,7,8]. Especially, various novel nanostructures based on SnO 2 semiconducting oxides, such as nano films [9], hollow nanofibers [10], nanocomposites [11,12], porous architecture [13], and so on, have been extensively investigated as a promising candidate for gas sensing materials.…”

Section: Introductionmentioning

confidence: 99%

The Effect of Eu Doping on Microstructure, Morphology and Methanal-Sensing Performance of Highly Ordered SnO2 Nanorods Array

Zhao

Ren

et al. 2017

Nanomaterials

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Layered Eu-doped SnO2 ordered nanoarrays constructed by nanorods with 10 nm diameters and several hundred nanometers length were synthesized by a substrate-free hydrothermal route using alcohol and water mixed solvent of sodium stannate and sodium hydroxide at 200 °C. The Eu dopant acted as a crystal growth inhibitor to prevent the SnO2 nanorods growth up, resulting in tenuous SnO2 nanorods ordered arrays. The X-ray diffraction (XRD) revealed the tetragonal rutile-type structure with a systematic average size reduction and unit cell volume tumescence, while enhancing the residual strain as the Eu-doped content increases. The surface defects that were caused by the incorporation of Eu ions within the surface oxide matrix were observed by high-resolution transmission electron microscope (HRTEM). The results of the response properties of sensors based on the different levels of Eu-doped SnO2 layered nanoarrays demonstrated that the 0.5 at % Eu-doped SnO2 layered nanorods arrays exhibited an excellent sensing response to methanal at 278 °C. The reasons of the enhanced sensing performance were discussed from the complicated defect surface structure, the large specific surface area, and the excellent catalytic properties of Eu dopant.

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Section: Introductionmentioning

confidence: 99%

The Effect of Eu Doping on Microstructure, Morphology and Methanal-Sensing Performance of Highly Ordered SnO2 Nanorods Array

Zhao

Ren

et al. 2017

Nanomaterials

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“…In particular, SnO 2 has been used as the predominant sensing material in the field of solid-state gas sensors because of its excellent sensitivity, selectivity and stability for environmental monitoring of CO, H 2 and NOx [5,6]. SnO 2 nanoparticles with various sizes and morphologies have been prepared by different chemical methods including chemical precipitation, hydrothermal, solgel, electro-spinning, microwave irradiation, because of these processes' relatively low cost and ability to control the grain size and shape [7][8][9][10][11]. Many attempts have also been made to improve sensing performance by adopting different strategies such as chemical doping, composite formation with noble metals or carbon nanostructures [12][13][14][15], and surface modification by irradiation (with e.g.…”

Section: Introductionmentioning

confidence: 99%

Investigations on the effect of gamma-ray irradiation on the gas sensing properties of SnO₂nanoparticles

et al. 2016

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In recent years, SnO2 nanoparticles (NPs) have been subjected to various modifications in order to improve their performance in sensing and other applications. Here, we report the synthesis of SnO2 NPs by microwave irradiation, and subsequent exposure to gamma (γ) radiation at different doses (0-150 kGy) to induce desirable physico-chemical properties. The irradiated samples were characterized by x-ray powder diffraction (XRD), transmission electron microscopy (TEM and HR-TEM), and photoluminescence (PL) to evaluate the effect of γ-ray irradiation on their morphology and microstructure. The results revealed that the bulk crystal structure remained unchanged after irradiation, while the existence of defects and a damaged over-layer have been confirmed by PL and HR-TEM respectively. The influence of γ-irradiation on the electrical and CO sensing characteristics was also investigated in the temperature range between 150 and 400 °C. γ-irradiated SnO2 NP based resistive sensors showed better CO sensing characteristics (i.e. higher response and lower working temperature) compared to non-irradiated SnO2. Upon optimizing the γ-ray dose irradiation level and working temperature, a ten-fold enhancement in the response to CO has been achieved (R/R 0 = 12 to 50 ppm of CO in air) in 50 kGy irradiated SnO2 NP based sensors operating at 150 °C. A possible mechanism for the enhanced sensing performance of γ-irradiated SnO2 NPs has been proposed.

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Optimal Pt mesoporous layer modified nanocomposite film with highly sensitive detection of ethanol at low temperature

Tian

Cao

Wang

et al. 2022

Applied Surface Science

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Hydrothermal self-assembly of novel porous flower-like SnO 2 architecture and its application in ethanol sensor

Cited by 25 publications

References 33 publications

The Effect of Eu Doping on Microstructure, Morphology and Methanal-Sensing Performance of Highly Ordered SnO2 Nanorods Array

The Effect of Eu Doping on Microstructure, Morphology and Methanal-Sensing Performance of Highly Ordered SnO2 Nanorods Array

Investigations on the effect of gamma-ray irradiation on the gas sensing properties of SnO₂nanoparticles

Optimal Pt mesoporous layer modified nanocomposite film with highly sensitive detection of ethanol at low temperature

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Hydrothermal self-assembly of novel porous flower-like SnO 2 architecture and its application in ethanol sensor

Cited by 25 publications

References 33 publications

The Effect of Eu Doping on Microstructure, Morphology and Methanal-Sensing Performance of Highly Ordered SnO2 Nanorods Array

The Effect of Eu Doping on Microstructure, Morphology and Methanal-Sensing Performance of Highly Ordered SnO2 Nanorods Array

Investigations on the effect of gamma-ray irradiation on the gas sensing properties of SnO2nanoparticles

Optimal Pt mesoporous layer modified nanocomposite film with highly sensitive detection of ethanol at low temperature

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Product

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Investigations on the effect of gamma-ray irradiation on the gas sensing properties of SnO₂nanoparticles