Journal
CHEMSUSCHEM
Volume 15, Issue 2, Pages -Publisher
WILEY-V C H VERLAG GMBH
DOI: 10.1002/cssc.202101510
Keywords
charge separation; covalent organic frameworks; hydrogen evolution; photocatalysis; water-gas shift reaction
Funding
- Natural Science Foundation of China [21771092]
- International Cooperation Program of Gansu Province [20YF3WA012]
- Fundamental Research Funds for the Central Universities [lzujbky-2021-kb17]
- Special Fund Project of Guiding Scientific and Technological Innovation Development of Gansu Province [2019ZX-04]
- 111 Project [B20027]
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The simultaneous presence of triazine and ketone acceptors in covalent organic frameworks has been found to enhance electron-hole separation efficiency and improve photocatalytic hydrogen production. COFs with two acceptors showed the highest hydrogen production rate. A single phenyl group as a bridging unit was more favorable for the catalytic reaction, indicating the importance of distance between acceptors in COF design.
Covalent organic frameworks (COFs) have recently attracted much attention as potential photocatalysts for hydrogen production. The effective separation of photogenerated charges is a key objective to improve the photocatalytic activity of COFs. Here, four COFs were synthesized through the Schiff-base reaction to investigate whether the presence (simultaneous or not) of triazine and ketone as acceptors in COFs improved electron-hole separation efficiency. Evidence indicated that charge separation was more efficient when triazine and ketone were simultaneously present in the COF. The COF comprising two acceptors displayed the highest photocatalytic hydrogen production rate (31.43 mu mol h(-1); 41.2 and 3.4 times as large as those of the COFs containing only triazine or ketone, respectively). Moreover, the effect of the distance between the two acceptors on the electron-hole separation was investigated by changing the length of a bridging biphenyl ring. It turned out that the transport distance of a single phenyl group was more favorable for the catalytic reaction. This work affords insight and support for the design of efficient COF photocatalysts.
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