4.7 Article

CdS nanoparticles with highly exposed (111) facets decorated on Pt/TiO2 nanotubes for highly efficient photocatalytic H2 evolution

期刊

APPLIED SURFACE SCIENCE
卷 586, 期 -, 页码 -

出版社

ELSEVIER
DOI: 10.1016/j.apsusc.2022.152711

关键词

Highly exposed (111) facets; Photocatalytic hydrogen evolution; Pt-TiO2/ZB CdS-CH3COO- nanotubes

资金

  1. National Natural Science Foundation of China [21766022]
  2. Science research Program of Inner Mongolia University of Technology [BS2021024]

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The study boosted the efficiency of hydrogen generation through photocatalytic water splitting by designing and synthesizing Pt as co-catalyst. Optimizing the structure of the photocatalyst effectively enhanced the transfer rate of photo-generated electrons and holes, offering a promising strategy to address energy shortage.
Photocatalytic water splitting is a prospective strategy to solve the shortage of human fossil fuel energy. In this work, we designed and synthesized the Pt as co-catalyst decorated on TiO2 nanotubes/metastable zinc-blende (ZB) CdS nanoparticles (NPs) with highly exposed (111) facets (HPTCA3) via the electrospinning-solvothermal and chemical deposition methods. The H-2 evolution rate of HPTCA3 was 15025.38 mu mol.g(-1).h(-1) , which was about 111.3 and 2.4 times stronger than that of pure CdS power and Pt-TiO2/CdS hollow nanotubes (HPTC). The XRD patterns showed the presence of acetate promoted the growth of ZB CdS (1 1 1) crystal facets, and the photogenerated electrons were easily tended to accumulate on the CdS (1 1 1) facets, which was conducive to the transmission of electrons on the CdS and TiO2 interface. The type II heterojunction can broaden the visible light response range and accelerate the separation and transfer of photo-generated electrons and holes which can be supported by the Optical and Electrochemical characterizations. Band structure calculations and XPS spectrum indicated that the composite catalyst had an efficient electron transfer mechanism, which was beneficial for the spatial separation of photogenerated carriers. The work provides a rational photocatalyst design to improve the performance of photocatalytic splitting of water into hydrogen.

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