Electrospun Cu-doped In2O3 hollow nanofibers with enhanced H2S gas sensing performance|Yu ZHANG;Shuai HAN;Mingyuan WANG;Siwei LIU;Guiwu LIU;Xianfeng MENG;Ziwei XU;Mingsong WANG;Guanjun QIAO|SEU-FEI Nano-Pico Center,Key Laboratory of MEMS of Ministry of Education,School of Electrical Science and Engineering,Southeast University,Nanjing 210096,China - 期刊导航|首站-论文投稿智能助手|论文发表|论文智能投稿|期刊自助发表推荐|杂志社快速发表|查同导刊-域田数据官方网站

典型文献

Electrospun Cu-doped In2O3 hollow nanofibers with enhanced H2S gas sensing performance

文献摘要：

One-dimensional nanofibers can be transformed into hollow structures with larger specific surface area,which contributes to the enhancement of gas adsorption.We firstly fabricated Cu-doped In2O3(Cu-In2O3)hollow nanofibers by electrospinning and calcination for detecting H2S.The experimental results show that the Cu doping concentration besides the operating temperature,gas concentration,and relative humidity can greatly affect the H2S sensing performance of the In2O3-based sensors.In particular,the responses of 6％Cu-In2O3 hollow nanofibers are 350.7 and 4201.5 to 50 and 100 ppm H2S at 250℃,which are over 20 and 140 times higher than those of pristine In2O3 hollow nanofibers,respectively.Moreover,the corresponding sensor exhibits excellent selectivity and good reproducibility towards H2S,and the response of 6％Cu-In2O3 is still 1.5 to 1 ppm H2S.Finally,the gas sensing mechanism of Cu-In2O3 hollow nanofibers is thoroughly discussed,along with the assistance of first-principles calculations.Both the formation of hollow structure and Cu doping contribute to provide more active sites,and meanwhile a little CuO can form p-n heterojunctions with In2O3 and react with H2S,resulting in significant improvement of gas sensing performance.The Cu-In2O3 hollow nanofibers can be tailored for practical application to selectively detect H2S at lower concentrations.

文献关键词：

中图分类号：

[1] 数理科学和化学（O） / 化学（O6） / 物理化学（理论化学）、化学物理学（O64） / 化学动力学、催化作用（O643） / 催化（O643.3） / 催化剂（O643.36）

[2] 金属学与金属工艺（TG） / 金属学与热处理（TG1） / 金属材料（TG14） / 有色金属及其合金（TG146） / 重有色金属及其合金（TG146.1） / 铜（TG146.1+1）

[3] 金属学与金属工艺（TG） / 金属学与热处理（TG1） / 金属材料（TG14） / 有色金属及其合金（TG146） / 重有色金属及其合金（TG146.1）

作者姓名：

Yu ZHANG;Shuai HAN;Mingyuan WANG;Siwei LIU;Guiwu LIU;Xianfeng MENG;Ziwei XU;Mingsong WANG;Guanjun QIAO

作者机构：

School of Materials Science and Engineering,Jiangsu University,Zhenjiang 212013,China;SEU-FEI Nano-Pico Center,Key Laboratory of MEMS of Ministry of Education,School of Electrical Science and Engineering,Southeast University,Nanjing 210096,China

文献出处：

先进陶瓷（英文版）

引用格式：

[1]Yu ZHANG;Shuai HAN;Mingyuan WANG;Siwei LIU;Guiwu LIU;Xianfeng MENG;Ziwei XU;Mingsong WANG;Guanjun QIAO-.Electrospun Cu-doped In2O3 hollow nanofibers with enhanced H2S gas sensing performance)[J].先进陶瓷（英文版）,2022(03):427-442

A类：

B类：

Electrospun,doped,In2O3,hollow,nanofibers,enhanced,H2S,gas,sensing,performance,One,dimensional,transformed,into,structures,larger,specific,surface,area,which,contributes,enhancement,adsorption,We,firstly,fabricated,by,electrospinning,calcination,detecting,experimental,results,show,that,doping,besides,operating,temperature,relative,humidity,greatly,affect,sensors,particular,responses,ppm,times,higher,than,those,pristine,respectively,Moreover,corresponding,exhibits,excellent,selectivity,good,reproducibility,towards,still,Finally,mechanism,thoroughly,discussed,along,assistance,principles,calculations,Both,formation,provide,more,active,sites,meanwhile,little,CuO,heterojunctions,react,resulting,significant,improvement,tailored,practical,application,selectively,lower,concentrations

AB值：

0.494162

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