1. Hydrogen-sensitive properties of fern-like In2O3@ZnO@Pd nanotubes at room temperature.
- Author
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Chen, Chunyan, Wang, Yucheng, Xiao, Guoqing, Chen, Chunlin, He, Xuehu, Zhou, Jian, Le, Jiancai, and Zhou, Xuan
- Subjects
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HYDROGEN detectors , *GAS detectors , *HYDROGEN content of metals , *CHEMICAL reduction , *PRECIOUS metals - Abstract
In 2 O 3 @ZnO nanotubes were fabricated using MIL-68@ZIF-8 as a template, and then fern-like In 2 O 3 @ZnO@Pd nanotubes with unique structures were synthesized by chemical reduction. The samples were thoroughly investigated to study their composition, morphology and structure. Hydrogen (H 2) sensitization characteristics of sensor of In 2 O 3 @ZnO@Pd nanotubes with different ZnO and Pd contents were tested at room temperature (RT). The In 2 O 3 @ZnO@Pd nanotube sensor with a palladium(Pd)content of 2.0 wt% exhibits a high response (R a /R g = 270) and fast response time (t res = 32 s) and recovery time (t rec = 116 s) to 10,000 ppm H 2 at RT, as well as excellent selectivity, behaving a response nearly six times that of interfering gases. The excellent hydrogen sensing performance indicates that the fern-like In 2 O 3 @ZnO@Pd nanocomposite has good application prospects and is an excellent hydrogen-sensitive material. In this paper, In 2 O 3 @ZnO nanotubes were prepared using nanoscale MIL-68@ZIF-8 as a template to enable further optimization of morphology with smaller scales. Fern-like In 2 O 3 @ZnO@Pd nanotubes with unique structures were then synthesized by doping noble metal Pd and chemical reduction. The H 2 sensing properties of fern-like In 2 O 3 @ZnO@Pd nanotubes to different concentrations of hydrogen were investigated by varying the contents of zinc oxide (ZnO) and Pd elements. The In3Zn–Pd 2 sample showed excellent sensitivity and selectivity to 10,000 ppm H 2 with a maximum response of 277.1 at RT, which was 6.6 times higher than pure In 2 O 3 @ZnO at the same temperature, and the response value was nearly six times that of the interfering gas. Moreover, the response/recovery time of the NT-Pd 2 samples was 32 and 116 s, respectively, which was substantially shorter than those of In 2 O 3 @ZnO at the same temperature (183 and 355s). [Display omitted] • Hydrogen gas sensor fabricated using fern-like In 2 O 3 @ZnO@Pd nanotubes. • The sensor detects hydrogen at room temperature providing a wider and safer range of applications. • The sensor has a high response value (277.1) and short response/recovery time (32s/116s) to hydrogen at room temperature. • The sensor has good selectivity and a response value of up to six times that of interfering gases. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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