4.6 Article

Abundant hydroxyl groups decorated on nitrogen vacancy-embedded g-C3N4 with efficient photocatalytic hydrogen evolution performance

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CATALYSIS SCIENCE & TECHNOLOGY
卷 11, 期 11, 页码 3914-3924

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ROYAL SOC CHEMISTRY
DOI: 10.1039/d1cy00359c

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  1. National Natural Science Foundation of China [12074435]

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By engineering hydroxyl and nitrogen vacancies on graphitic carbon nitride (g-C3N4) via a flexible method, the separation of photogenerated carriers was enhanced and the photocatalytic activity was improved, leading to a significant increase in hydrogen evolution rate.
Regulation of the properties of photocatalytic materials that are targeted at maximizing their superiorities in photocatalytic H-2 evolution are essential for full utilization of solar energy but still face enormous challenges. In this work, engineering of hydroxyl and nitrogen vacancies on graphitic carbon nitride (g-C3N4) was fabricated via a flexible calcination-hydrothermal method. The characterization indicated that loss of N atoms at N-2C resulted in the exposure of lone-pair electrons on the adjacent C atoms, thus stimulating anchoring of abundant hydroxyl on g-C3N4. Meanwhile, hydroxyl and N vacancies could capture the holes and electrons separately, which mitigated the recombination of photogenerated carriers. Furthermore, the improvement in hydrophilicity triggered by hydroxyl and the decreased conduction band caused by the N vacancies were critical for boosting the photocatalytic activity. As a result, an average H-2 evolution rate of 232.75 mu mol h(-1) g(-1) was achieved, which was about 4.2 times higher than that of pristine g-C3N4. This research lays good foundations and provides new insights into engineering highly efficient g-C3N4 with modified surface and electronic structures.

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