4.7 Article

Carbon Nitride Functionalized with Sb Resulting in High Photocatalytic Activity

期刊

ACS APPLIED ENERGY MATERIALS
卷 4, 期 6, 页码 5677-5686

出版社

AMER CHEMICAL SOC
DOI: 10.1021/acsaem.1c00498

关键词

photocatalysis; carbon nitride; atomic Sb; hydrogen generation; semiconductor

资金

  1. Shenzhen Science and Technology Project [JCYJ20180507182246321]
  2. JSTERATO Yamauchi Materials Space-Tectonics [JPMJER2003]

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Composite materials based on Sb clusters anchored on graphitic carbon nitride (g-C3N4) were prepared using a hierarchical sealed-tube calcination method, resulting in significantly increased photocatalytic efficiency for hydrogen generation. Further calcination under sealed-tube conditions allowed successful anchoring of Sb species in the form of atomic clusters within the g-C3N4 matrix, leading to a 14.4 times enhancement in photocatalytic hydrogen generation compared to pristine g-C3N4. This improvement can be attributed to the tuning of electronic structure in Sb@C3N4 and accelerated charge transfer.
Composites based on Sb clusters anchored on graphitic carbon nitride (g-C3N4) are prepared via a hierarchical sealed-tube calcination method. In the first stage, thermal treatment brings the density and crystallinity of g-C3N4 to substantially increase, resulting in 4.5 times higher photocatalytic efficiency toward water splitting for hydrogen generation. After further calcination under sealed-tube conditions, Sb species are successfully anchored on the edge of the pores within the g-C3N4 matrix in the form of atomic clusters. Photocatalytic hydrogen generation from the resulting Sb@C3N4 is further enhanced 14.4 times compared with the pristine g-C3N4. Such an improvement can be ascribed to the tuning of the electronic structure in Sb@C3N4 and hastened charge transfer.

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