Promoting visible-light photocatalytic activities for carbon nitride based 0D/2D/2D hybrid system: beyond the conventional 4-electron mechanism

Raziq, Fazal; He, Jingxuan; Gan, Jiantuo; Humayun, Muhammad; Faheem, M. Bilal; Iqbal, Atef; Hayat, Asif; Fazal, Saima; Yi, Jiabao; Zhao, Yang; Dhanabalan, K.; Wu, Xiaoqiang; Mavlonov, Abdurashid; Ali, Tariq; Hassan, Fakhrul; Xiang, Xia; Zu, Xiaotao; Shen, Huahai; Li, Sean; Qiao, Liang

Title: Promoting visible-light photocatalytic activities for carbon nitride based 0D/2D/2D hybrid system: beyond the conventional 4-electron mechanism
Creator: Raziq, Fazal; He, Jingxuan; Gan, Jiantuo; Humayun, Muhammad; Faheem, M. Bilal; Iqbal, Atef; Hayat, Asif; Fazal, Saima; Yi, Jiabao; Zhao, Yang; Dhanabalan, K.; Wu, Xiaoqiang; Mavlonov, Abdurashid; Ali, Tariq; Hassan, Fakhrul; Xiang, Xia; Zu, Xiaotao; Shen, Huahai; Li, Sean; Qiao, Liang
Relation: ARC.FT160100205 http://purl.org/au-research/grants/arc/FT160100205
Relation: Applied Catalysis B: Environmental Vol. 270, Issue 5 August 2020, no. 118870
Publisher Link: http://dx.doi.org/10.1016/j.apcatb.2020.118870
Publisher: Elsevier
Resource Type: journal article
Date: 2020
Description: Photocatalysis is regarded as one of promising technology for future clean and sustaniable energy applications. Herein, we have fabricated Au-modified reduced graphene oxide coupled with carbon nitride (Au/rGO/g-C3N4) as novel 0D/2D/2D photocatalytic nanocomposites. The optimized sample 2Au/0.6rGO/g-C3N4 exhibits exceptional visible-light activity for water splititng and CO2 reduction with quantum efficiency of 3.82 % and 1.98 %, respectively. Electrochemistry and ultraviolent photoemission are combined to determine the band alignments and elaborate associated water splitting path-way mechanism. It is validated that due to intrinsic deep valence band position of g-C3N4, the obtained nanocomposites exhibit unusual two-step two-electron way of water oxidization through intermediate H2O2 catalyzed by rGO addition. The exceptional photoactivities are attributed to dual functions of enhanced charge separation and two-electron water oxidization facilitated by rGO and surface plasmon effect of decorated Au. Our work provides illuminations for low cost and high efficiency photocatalytic water splitting and CO2 reduction applications.
Subject: g-C3N4; electron mediator; surface plasmon resonance; CO2 conversion; overall water splitting; SDG 13; Sustainable Development Goals
Identifier: http://hdl.handle.net/1959.13/1447644
Identifier: uon:43207
Identifier: ISSN:0926-3373
Language: eng
Reviewed

Hits: 4932
Visitors: 4923
Downloads: 1

Collections

Goal 13: Climate Change

		Thumbnail	File	Description	Size	Format