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http://dx.doi.org/10.46670/JSST.2021.30.6.376

D-space-controlled graphene oxide hybrid membrane-loaded SnO2 nanosheets for selective H2 detection  

Jung, Ji-Won (School of Materials Science and Engineering, University of Ulsan (UOU))
Jang, Ji-Soo (Center for Electronic Materials, Korea Institute of Science and Technology)
Publication Information
Journal of Sensor Science and Technology / v.30, no.6, 2021 , pp. 376-380 More about this Journal
Abstract
The accurate detection of hydrogen gas molecules is considered to be important for industrial safety. However, the selective detection of the gas using semiconductive metal oxides (SMOs)-based sensors is challenging. Here, we describe the fabrication of H2 sensors in which a nanocellulose/graphene oxide (GO) hybrid membrane is attached to SnO2 nanosheets (NSs). One-dimensional (1D) nanocellulose fibrils are attached to the surface of GO NSs (GONC membrane) by mixing GO and nanocellulose in a solution. The as-prepared GONC membrane is employed as a sacrificial template for SnO2 NSs as well as a molecular sieving membrane for selective H2 filtration. The combination of GONC membrane and SnO2 NSs showed substantial selectivity to hydrogen gas (Rair / Rgas > 10 @ 0.8 % H2, 100 ℃) with noise level responses to interfering gases (H2S, CO, CH3COCH3, C2H5OH, and NO2). These remarkable sensing results are attributed mainly to the molecular sieving effect of the GONC membrane. These results can facilitate the development of a highly selective H2 detector using SMO sensors.
Keywords
Gas sensors; Porous $SnO_2$; Molecular sieving membranes; Graphene oxide;
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