Fabrication and characterization of a sensitive, room temperature methane sensor based on SnO <ce:inf loc='post'>2</ce:inf>@reduced graphene oxide-polyaniline ternary nanohybrid

Shiva Navazani; Ali Shokuhfar; Mostafa Hassanisadi; Aldo Di Carlo; Nikta Shahcheraghi

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Fabrication and characterization of a sensitive, room temperature methane sensor based on SnO 2@reduced graphene oxide-polyaniline ternary nanohybrid

机译：基于SnO的敏感，室温甲烷传感器的制造和表征：INF LOC =“POST”> 2 @Redux氧化石墨氧化物三元纳米嗜含量

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Using in situ chemical polymerization, the hybridized pre-synthesized SnO2@rGO with polyaniline (SnO2@rGO-PANI) was synthetized and applied as the methane sensor at room temperature. The enhanced response of SnO2@rGO-PANI toward 100–10,000?ppm Methane at room temperature, i.e. from 26.1% to 92.3%, illustrated its excellent potential of functional properties. As a hybrid sensor, SnO2@rGO-PANI exhibited better response to Methane gas (initial concentration: 1000?ppm) than those of the bare SnO2@rGO (7.6 times) and PANI nanofiber (3 times) sensors. Compared to these sensors, SnO2@rGO-PANI showed a response of 26.1% to 100?ppm of methane, which was not detectable for pure SnO2@rGO and PANI. The enhanced methane sensitivity of SnO2@rGO-PANI is attributed to more hetero sites of p-n junctions between n-SnO2@rGO and p-PANI as well as the π-π conjugation system of PANI and rGO in the as-prepared nanohybrid. The analysis of X-ray diffraction, Fourier transform infrared spectroscopy, Raman spectroscopy, Field emission scanning electron microscopy and Transmission electron microscopy methods were applied to characterize the nanohybrid sensor.

机译：使用原位化学聚合，合成杂交的具有聚苯胺（SnO2 @ Rgo-Pani）的合成的SnO2 @ Rgo并在室温下作为甲烷传感器施加。在室温下，SnO2 @ rgo-pani朝向100-10,000℃的增强响应，即26.1％至92.3％，显示出具有功能性质的优异潜力。作为混合传感器，SnO2 @ Rgo-Pani比裸SnO2 @ Rgo（7.6次）和Pani NanoFiber（3次）传感器更好地响应甲烷气体（初始浓度：1000μm≤ppm）。与这些传感器相比，SnO2 @ rgo-pani显示出26.1％至100μlαppm的甲烷的反应，这对于纯SnO2 @ rgo和Pani来说是不可检测的。 SnO2 @ rgo-pani的增强甲烷敏感性归因于N-SnO2 @ RGO和P-PANI之间的P-N结的更多杂位位点以及在制备的纳米冬次中的PANI和RGO的π-π共轭系统。应用X射线衍射，傅里叶变换红外光谱，拉曼光谱，场发射扫描电子显微镜和透射电子显微镜方法的分析，表征纳米杂交传感器。

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《Materials science in semiconductor processing》 |2018年第2018期|共9页
作者
Shiva Navazani; Ali Shokuhfar; Mostafa Hassanisadi; Aldo Di Carlo; Nikta Shahcheraghi;
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作者单位

Advanced Materials and Nanotechnology Research Lab Department of Materials Science and Engineering K.N. Toosi University of Technology;

Advanced Materials and Nanotechnology Research Lab Department of Materials Science and Engineering K.N. Toosi University of Technology;

Nanotechnology research center Research Institute of the Petroleum Industry;

C.H.O.S.E. (Centre for Hybrid and Organic Solar Energy) Department of Electronic Engineering University of Rome “Tor Vergata”;

Advanced Materials and Nanotechnology Research Lab Department of Materials Science and Engineering K.N. Toosi University of Technology;

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原文格式 PDF
正文语种 eng
中图分类半导体技术;
关键词
SnO2@reduced graphene oxide; Polyaniline; Methane sensor; Room temperature;

机译：SnO2 @ x掉缩石墨烯;聚苯胺;甲烷传感器;室温;

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机译：基于SnO的敏感，室温甲烷传感器的制造和表征：INF LOC =“POST”> 2 @Redux氧化石墨氧化物三元纳米嗜含量
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Fabrication and characterization of a sensitive, room temperature methane sensor based on SnO 2@reduced graphene oxide-polyaniline ternary nanohybrid

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