Abstract
The zinc oxide-indium sulfide (ZnO-In2S3) composite nanofiber has been fabricated via a convenient and straightforward electrospinning process without using templates, and these unique structures represent promising candidates for application in highly efficient hydrogen evolution photocatalyst. Mixing appropriate amounts of In2S3 nanosheet into ZnO nanopowder to form ZnO-In2S3 composite nanofiber can enhance photocatalytic hydrogen production activity. In addition, ZnO-In2S3 composite can increase the separation of electron-hole pairs and the light absorption ability for progressing their photocatalytic hydrogen evolution under blue light-emitting diode (LED) irradiation.
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