期刊
CHEMISTRY-A EUROPEAN JOURNAL
卷 24, 期 59, 页码 15930-15936出版社
WILEY-V C H VERLAG GMBH
DOI: 10.1002/chem.201803621
关键词
composite materials; hydrogen; photocatalysis; synergistic effects; water splitting
资金
- National Natural Science Foundation of China [21471081, 21533012, 21622104, 21471080, 21701085]
- NSF of Jiangsu Province of China [BK20171032]
- Natural Science Research of Jiangsu Higher Education Institutions of China [17KJB150025]
Photocatalytic hydrogen evolution technology is recognized as a promising approach to relieving the growing energy crisis. Therefore, the development of a stable high-performance photocatalyst has long been the focus of research. In this work, quaternary composite materials involving a snowflake-like CdS nanocrystal wrapped by different amounts of polyoxometalate-decorated g-C3N4 and polypyrrole (GPP@CdS) have been synthesized as photocatalysts for hydrogen production under visible-light irradiation. It has been revealed that the best composite (40% GPP@CdS composite) exhibits hydrogen production activity of 1321 mu mol, which exceeds that of CdS by a factor of more than two, and can be used in at least seven cycles with negligible loss of activity. The enhanced photocatalytic performance has been primarily attributed to the efficient synergy of CdS, g-C3N4, polypyrrole (PPy), and the polyoxometalate Ni-4(PW9)(2). It should be noted that the introduction of PPy and g-C3N4 into the title composite simultaneously promotes electron/hole pair separation and photocatalytic stability, whereas Ni-4(PW9)(2) serves as an efficient electron modulator and extra catalytic active site.
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