期刊
MATERIALS
卷 15, 期 21, 页码 -出版社
MDPI
DOI: 10.3390/ma15217426
关键词
Cr-doped ZnS; photocatalysis; hydrogen sulfide; hydrogen; dielectric barrier discharge
类别
资金
- Poznan University of Technology-project [0713/, SBAD/0958]
This study tested a new catalyst for converting hydrogen sulfide into hydrogen gas in a non-thermal plasma system. The results showed that the new catalyst efficiently converted hydrogen sulfide into hydrogen gas under certain conditions.
The use of non-thermal plasma technology in producing green fuels is a much-appreciated environmentally friendly approach. In this study, an Al2O3-supported CrxZnS semiconductor catalyst was tested for hydrogen evolution from hydrogen sulfide (H2S) gas by using a single-layered dielectric barrier discharge (DBD) system. The Al2O3-supported CrxZnS catalyst (x = 0.20, 0.25, and 0.30) was produced by using a co-impregnation method and characterized for its structural and photocatalytic characteristics. The discharge column of the DBD system was filled with this catalyst and fed with hydrogen sulfide and argon gas. The DBD plasma was sustained with a fixed AC source of 10 kV where plasma produced species and UV radiations activated the catalyst to break H2S molecules under ambient conditions. The catalyst (hexagonal-cubic-sphalerite structure) showed an inverse relationship between the band gap and the dopant concentration. The hydrogen evolution decreased with an increase in dopant concentration in the nanocomposite. The Cr0.20ZnS catalyst showed excellent photocatalytic activity under the DBD exposure by delivering 100% conversion efficiency of H2S into hydrogen. The conversion decreased to 96% and 90% in case of Cr0.25ZnS and Cr0.30ZnS, respectively.
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