D
Dan Meng
Researcher at Shenyang University of Chemical Technology
Publications - 52
Citations - 1925
Dan Meng is an academic researcher from Shenyang University of Chemical Technology. The author has contributed to research in topics: Hydrothermal circulation & Chemistry. The author has an hindex of 20, co-authored 40 publications receiving 1403 citations. Previous affiliations of Dan Meng include University of Toyama.
Papers
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Microstructure and H2 gas sensing properties of undoped and Pd-doped SnO2 nanowires
Yanbai Shen,Toshinari Yamazaki,Zhifu Liu,Dan Meng,Toshio Kikuta,Noriyuki Nakatani,M. Saito,Masayuki Mori +7 more
TL;DR: In this paper, the morphology, crystal structure, and H2 gas sensing properties of undoped and Pd-doped tin oxide (SnO2) nanowires were investigated.
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Low-temperature formaldehyde gas sensors based on NiO-SnO2 heterojunction microflowers assembled by thin porous nanosheets
TL;DR: NiO-SnO2 heterojunction microflowers assembled by thin porous nanosheets were successfully synthesized through a facile one-step hydrothermal route as discussed by the authors.
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NO2 sensing properties of one-pot-synthesized ZnO nanowires with Pd functionalization
Xiangxiang Chen,Yanbai Shen,Pengfei Zhou,Sikai Zhao,Xiangxi Zhong,Tingting Li,Cong Han,Dezhou Wei,Dan Meng +8 more
TL;DR: In this article, a low-temperature and high-performance NO2 sensor based on Pd-functionalized ZnO nanowires (Pd-ZNWs) prepared by a facile one-pot hydrothermal method was reported.
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Influence of effective surface area on gas sensing properties of WO3 sputtered thin films
TL;DR: WO3 thin films having different effective surface areas were deposited under various discharge gas pressures at room temperature by using reactive magnetron sputtering in this article, which demonstrated the importance of achieving high effective surface area on improving the gas sensing performance.
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Preparation of WO3 nanoparticles and application to NO2 sensor
TL;DR: In this article, the crystal structure, morphology, and NO 2 gas sensing properties of WO 3 nanoparticles deposited under various oxygen pressures and annealed at different temperatures were investigated. And the particle size increased with increasing oxygen pressure and with increasing annealing temperature.