4.8 Article

Coupling Ni-substituted polyoxometalate catalysts with water-soluble CdSe quantum dots for ultraefficient photogeneration of hydrogen under visible light

期刊

APPLIED CATALYSIS B-ENVIRONMENTAL
卷 303, 期 -, 页码 -

出版社

ELSEVIER
DOI: 10.1016/j.apcatb.2021.120893

关键词

Polyoxometalates; Ni-substitution; Water-soluble CdSe quantum dots; Photocatalytic hydrogen production

资金

  1. National Natural Science Foundation of China [21871025, 21831001]
  2. Recruitment Program of Global Experts (Young Talents)
  3. BIT Excellent Young Scholars Research Fund

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This study reports a water-compatible, robust, and ultraefficient hydrogen-evolving system by coupling water-soluble CdSe light-absorbers with Ni-POM catalysts and AA electron donor. The catalytic system exhibits superior and robust hydrogen production activity among known semiconductor/POM hybrids, with confirmed molecular stability of Ni-POM catalysts under turnover conditions. The exceptional performance of the catalytic system is attributed to the synergistic cooperation between CdSe light-absorber, Ni-POM catalyst, and AA electron donor.
The development of robust and efficient hydrogen-evolving system remains a substantial but promising challenge to convert solar energy into clean fuel. Herein, we report the construction of water-compatible, robust, and ultraefficient hydrogen-evolving system by coupling water-soluble CdSe light-absorbers with Ni-substituted polyoxometalate (Ni-POM) catalysts and AA electron donor. Such facile catalytic system exhibits superior and robust hydrogen production activity to date even among known semiconductor/POM hybrids-based hydrogen production systems. Multiple stability experiments confirm the molecular stability of Ni-POM catalysts under turnover conditions. Various experimental and spectroscopic analyses reveal that the synergistic cooperation between high photostability of CdSe light-absorber, outstanding reversible multi-electron-transferring property of Ni-POM catalyst, and the fast hole-removing ability of AA electron donor account for the exceptional performance of present catalytic system. Our present work provides new research insights into the continued development of effective hydrogen-evolving systems through coupling other QDs-based light-absorbers and earth-abundant transition-metal-substituted POM catalysts.

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