Salt-Assisted Synthesis of 3D Porous g‑C3N4 as a Bifunctional Photo- and Electrocatalyst

Graphitic carbon nitride (g-C3N4), characterized with a suitable bandgap, has aroused great interest as a robust and efficient catalyst for solar energy utilization. Herein, we introduce a new strategy to fabricate a three-dimensional (3D) porous g-C3N4 by a facile NaCl-assisted ball-milling strateg...

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Bibliographic Details
Published in:ACS applied materials & interfaces 2019-07, Vol.11 (30), p.27226-27232
Main Authors: Qian, Xingyue, Meng, Xiaoqian, Sun, Jingwen, Jiang, Lili, Wang, Yining, Zhang, Jianli, Hu, Xuemin, Shalom, Menny, Zhu, Junwu
Format: Article
Language:English
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Summary:Graphitic carbon nitride (g-C3N4), characterized with a suitable bandgap, has aroused great interest as a robust and efficient catalyst for solar energy utilization. Herein, we introduce a new strategy to fabricate a three-dimensional (3D) porous g-C3N4 by a facile NaCl-assisted ball-milling strategy. The porous structure-induced advantages, such as a higher specific surface area, more efficient charge separation, and faster electron-transfer efficiency, enable the 3D porous g-C3N4 to achieve impressive properties as a bifunctional catalyst for both photocatalytic hydrogen evolution and electrocatalytic oxygen evolution reaction (OER). As a result, the 3D porous g-C3N4 exhibits a hydrogen evolution rate of 598 μmol h–1 g–1 with an apparent quantum yield of 3.31% at 420 nm for photocatalytic H2 generation, which is much higher than that of the bulk g-C3N4. Simultaneously, the porous g-C3N4 also presents an attractive OER performance with a low onset potential of 1.47 V (vs reversible hydrogen electrode) in an alkaline electrolyte after rational cobalt-doping. Accordingly, the NaCl-assisted ball-milling strategy paves the way to the rational design of a controllable porous structure.
ISSN:1944-8244
1944-8252
DOI:10.1021/acsami.9b08651