Homogeneous distribution of highly dispersed Pt species over O and P co-doped g-C3N4 and its superior photocatalytic H2 evolution activity

In this study, we synthesized O and P co-doped graphitic C3N4 (OPCN) materials by a one-step calcination method and prepared Pt/OPCN photocatalysts for the photocatalytic H2 evolution reaction. Among the Pt/OPCN catalysts with various O and P contents, Pt/OPCN2 exhibited the highest H2 evolution rat...

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Bibliographic Details
Published in:Journal of alloys and compounds 2024-08, Vol.997, p.174923, Article 174923
Main Authors: Hoang, Thi Van Anh, Nguyen, Phuong Anh, Pham, Thanh-Truc, Prasad Reddy, K.S.S.V., Jeong, Dong Hwi, Kang, Sung Gu, Shin, Eun Woo
Format: Article
Language:English
Subjects:
Doped g-C3N4
Metal–support interaction
Photocatalytic hydrogen evolution
Pt oxidation state
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Summary:In this study, we synthesized O and P co-doped graphitic C3N4 (OPCN) materials by a one-step calcination method and prepared Pt/OPCN photocatalysts for the photocatalytic H2 evolution reaction. Among the Pt/OPCN catalysts with various O and P contents, Pt/OPCN2 exhibited the highest H2 evolution rate of 2198 μmol·g−1 (AQE = 7.33 %), which was 1.65 times higher than that of Pt/CN (1330 μmol·g−1). Moreover, Pt/OPCN2 demonstrated excellent photocatalytic properties, such as suitable band gap (2.50 eV) for visible light and efficient charge separation of photoexcited electron–hole pairs, which was confirmed by ultraviolet-visible spectroscopy, electrochemical impedance spectroscopy, photoluminescence spectroscopy, and time-resolved photoluminescence measurements. Fundamentally, the Pt species effectively interacted with neighboring PO and CO functional groups that optimally located on defective OPCN2, resulting in a homogeneous formation of highly dispersed PtO evenly distributed over Pt/OPCN2, as confirmed by X-ray photoelectron spectroscopy, high-angle annular dark-field scanning transmission electron microscopy, and density functional theory calculations. However, excessive O and P contents of OPCN3 damaged the morphological structure of g-C3N4, inducing a poor interaction between the Pt species and OPCN3 and forming isolated Pt nanoparticles, resulting in the low photocatalytic activity of Pt/OPCN3. [Display omitted] •O- and P-doped graphitic C3N4 (OPCN) were synthesized by a one-step calcination method.•Pt/OPCN photocatalysts were prepared for the photocatalytic H2 evolution reaction.•Pt species optimally interacted with neighboring PO and CO functional groups on OPCN.•The optimal interaction resulted in a uniform formation of single Pt2+ atoms over OPCN.•Excessive O and P contents induced a poor interaction and isolated Pt nanoparticles.
ISSN:0925-8388
1873-4669
DOI:10.1016/j.jallcom.2024.174923