Journal
ACS APPLIED MATERIALS & INTERFACES
Volume 8, Issue 1, Pages 617-624Publisher
AMER CHEMICAL SOC
DOI: 10.1021/acsami.5b09684
Keywords
carbon nitride; two-dimensional; visible light-driven photocatalysis; hydrogen evolution; laser photolysis
Funding
- National Basic Research Program of China (973 Program) [2012CB933102]
- National Natural Science Foundation of China (NSFC) [51525303]
- Gansu Province Science Foundation for Distinguished Young Scholars [1308RJDA014]
- Longyuan Support Project for Young Creative Talents [GANZUTONGZI [2014], 4]
- Fundamental Research Funds for the Central Universities [lzujbky-2013-66]
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Graphitic carbon nitrides have appeared as a new type of photocatalyst for water splitting, but their broader and more practical applications are oftentimes hindered by the insolubility or difficult dispersion of the material in solvents. We herein prepared novel two-dimensional (2D) carbon nitride-type polymers doped by iron under a mild one-pot method through preorganizing formamide and citric acid precursors into supramolecular structures, which eventually polycondensed into a homogeneous organocatalyst for highly efficient visible light-driven hydrogen evolution with a rate of similar to 16.2 mmol g(-1) h(-1) and a quantum efficiency of 0.8%. Laser photolysis and electrochemical impedance spectroscopic measurements suggested that iron-doping enabled strong electron coupling between the metal and the carbon nitride and formed unique electronic structures favoring electron mobilization along the 2D nanomaterial plane, which might facilitate the electron transfer process in the photocatalytic system and lead to efficient H-2 evolution. In combination with electrochemical measurements, the electron transfer dynamics during water reduction were depicted, and the earth-abundant Fe-based catalyst may open a sustainable strategy for conversion of sunlight into hydrogen energy and cope with current challenging energy issues worldwide.
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