SnO2 has been extensively used in the detection of various gases.As a gas sensing material,SnO2 has excellent physical-chemical properties,high reliability,and short adsorption-desorption time.The application of the traditional SnO2 gas sensor is limited due to its higher work-temperature,low gas response,and poor selectivity.Nanomaterials can significantly impact gas-sensitive properties due to the quantum size,surface,and small size effects of nanomaterials.By applying nanotechnology to the preparation of SnO2,the SnO2 nanomaterial-based sensors could show better performance,which greatly expands the application of SnO2 gas sensors.In this re-view,the preparation method of the SnO2 nanostructure,the types of gas detected,and the improvements of SnO2 gas-sensing performances via elemental modification are introduced as well as the future development of SnO2 is discussed.

Yulin Kong;Yuxiu Li;Xiuxiu Cui;Linfeng Su;Dian Ma;Tingrun Lai;Lijia Yao;Xuechun Xiao;Yude Wang

School of Materials and Energy,Yunnan University,650091,Kunming,People's Republic of China;State Key Laboratory of Advanced Technologies for Comprehensive Utilization of Platinum Metals,Kunming Institute of Precious Metals,650106,Kunming,People's Republic of China;National Center for International Research on Photoelectric and Energy Materials,Yunnan University,650091,Kunming,People's Republic of China;Key Lab of Quantum Information of Yunnan Province,Yunnan University,650091,Kunming,People's Republic of China

纳米材料科学（英文版）

[1]Yulin Kong;Yuxiu Li;Xiuxiu Cui;Linfeng Su;Dian Ma;Tingrun Lai;Lijia Yao;Xuechun Xiao;Yude Wang-.SnO2 nanostructured materials used as gas sensors for the detection of hazardous and flammable gases:A review)[J].纳米材料科学（英文版）,2022(04):339-350

SnO2,nanostructured,used,sensors,detection,hazardous,flammable,gases,review,has,been,extensively,various,sensing,excellent,physical,chemical,properties,reliability,short,adsorption,desorption,application,traditional,limited,due,its,higher,work,temperature,low,response,poor,selectivity,Nanomaterials,significantly,impact,sensitive,quantum,size,surface,small,effects,nanomaterials,By,applying,nanotechnology,preparation,could,show,better,which,greatly,expands,In,this,method,types,detected,improvements,performances,via,elemental,modification,are,introduced,well,future,development,discussed

0.540352