期刊
APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING
卷 127, 期 4, 页码 -出版社
SPRINGER HEIDELBERG
DOI: 10.1007/s00339-021-04350-x
关键词
SnO2; alpha-Fe2O3 heterostructure; Nanotubes; TEA; Gas-sensing performance; Shuaijun Hao and Hong Wang have been contributed equally to this work
资金
- National Natural Science Foundation of China [51802306, 51272165, 51672138, 51572177]
A corn-like mesoporous SnO2/alpha-Fe2O3 heterostructure was successfully prepared through a simple one-step hydrothermal route, showing high response to 100 ppm TEA. The unique morphology and structure of the composite material, as well as the implantation of Sn4+, played crucial roles in its outstanding gas-sensing performance.
Corn-like mesoporous SnO2/alpha-Fe2O3 heterostructure was successfully prepared via a simple one-step hydrothermal route. A large number of nanotubes with the average diameter of about 15 nm grew on the surface of the composites. The influence of Sn4+ initial concentration on the morphology, structure and gas-sensing performance of all products was studied. The gas-sensing test indicated that SnO2/alpha-Fe2O3-5 (the molar ratios of Sn4+/Fe3+ was 5:100) based sensor displayed high response value (76) to 100 ppm TEA, superior selection than that of SnO2, alpha-Fe2O3 and other SnO2/alpha-Fe2O3 composites. The outstanding gas-sensing properties could be due to unique corn-like mesoporous SnO2/alpha-Fe2O3 composites with nanotubes, the formation of n-n heterojunction between alpha-Fe2O3 and SnO2, large specific surface area and the change of carrier concentration caused by the implantation of Sn4+ into alpha-Fe2O3 nanostructure.
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