Microwave-assisted heating synthesis: A general and rapid strategy for large-scale production of highly crystalline g-C3N4 with enhanced photocatalytic H2 production

Yu Peng Yuan; Li Sha Yin; Shao Wen Cao; Li Na Gu; Geng Sheng Xu; Pingwu Du; Hua Chai; Yu Sen Liao; Can Xue

doi:10.1039/c4gc01517g

Microwave-assisted heating synthesis: A general and rapid strategy for large-scale production of highly crystalline g-C₃N₄ with enhanced photocatalytic H₂ production

Yu Peng Yuan, Li Sha Yin, Shao Wen Cao, Li Na Gu, Geng Sheng Xu, Pingwu Du^*, Hua Chai, Yu Sen Liao, Can Xue

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

188 Citations (Scopus)

Abstract

The metal-free photocatalyst, g-C₃N₄, is very attractive for solar hydrogen production. Presently, g-C₃N₄ is mainly fabricated by the conversion of nitrogen-rich precursors at high temperature (400-600 °C) for a long reaction time (several hours to days). Herein we report a rapid synthetic strategy named "microwave (MW)-assisted heating synthesis", which allows the highly crystalline g-C₃N₄ photocatalyst to be fabricated in minutes. The obtained g-C₃N₄ displays enhanced photocatalytic H₂ production. In addition, the described synthetic strategy is a general approach that can also be applicable to other nitrogen-rich organic precursors, such as melamine, cyanamide, and thiourea. Importantly, the present process enables scale-up production of g-C₃N₄ for several grams in minutes.

Original language	English
Pages (from-to)	4663-4668
Number of pages	6
Journal	Green Chemistry
Volume	16
Issue number	11
DOIs	https://doi.org/10.1039/c4gc01517g
Publication status	Published - Nov 1 2014
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2014 the Partner Organisations.

ASJC Scopus Subject Areas

Environmental Chemistry
Pollution

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.1039/c4gc01517g

Cite this

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title = "Microwave-assisted heating synthesis: A general and rapid strategy for large-scale production of highly crystalline g-C3N4 with enhanced photocatalytic H2 production",

abstract = "The metal-free photocatalyst, g-C3N4, is very attractive for solar hydrogen production. Presently, g-C3N4 is mainly fabricated by the conversion of nitrogen-rich precursors at high temperature (400-600 °C) for a long reaction time (several hours to days). Herein we report a rapid synthetic strategy named {"}microwave (MW)-assisted heating synthesis{"}, which allows the highly crystalline g-C3N4 photocatalyst to be fabricated in minutes. The obtained g-C3N4 displays enhanced photocatalytic H2 production. In addition, the described synthetic strategy is a general approach that can also be applicable to other nitrogen-rich organic precursors, such as melamine, cyanamide, and thiourea. Importantly, the present process enables scale-up production of g-C3N4 for several grams in minutes.",

author = "Yuan, {Yu Peng} and Yin, {Li Sha} and Cao, {Shao Wen} and Gu, {Li Na} and Xu, {Geng Sheng} and Pingwu Du and Hua Chai and Liao, {Yu Sen} and Can Xue",

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T2 - A general and rapid strategy for large-scale production of highly crystalline g-C3N4 with enhanced photocatalytic H2 production

AU - Yuan, Yu Peng

AU - Yin, Li Sha

AU - Cao, Shao Wen

AU - Gu, Li Na

AU - Xu, Geng Sheng

AU - Du, Pingwu

AU - Chai, Hua

AU - Liao, Yu Sen

AU - Xue, Can

PY - 2014/11/1

Y1 - 2014/11/1

N2 - The metal-free photocatalyst, g-C3N4, is very attractive for solar hydrogen production. Presently, g-C3N4 is mainly fabricated by the conversion of nitrogen-rich precursors at high temperature (400-600 °C) for a long reaction time (several hours to days). Herein we report a rapid synthetic strategy named "microwave (MW)-assisted heating synthesis", which allows the highly crystalline g-C3N4 photocatalyst to be fabricated in minutes. The obtained g-C3N4 displays enhanced photocatalytic H2 production. In addition, the described synthetic strategy is a general approach that can also be applicable to other nitrogen-rich organic precursors, such as melamine, cyanamide, and thiourea. Importantly, the present process enables scale-up production of g-C3N4 for several grams in minutes.

AB - The metal-free photocatalyst, g-C3N4, is very attractive for solar hydrogen production. Presently, g-C3N4 is mainly fabricated by the conversion of nitrogen-rich precursors at high temperature (400-600 °C) for a long reaction time (several hours to days). Herein we report a rapid synthetic strategy named "microwave (MW)-assisted heating synthesis", which allows the highly crystalline g-C3N4 photocatalyst to be fabricated in minutes. The obtained g-C3N4 displays enhanced photocatalytic H2 production. In addition, the described synthetic strategy is a general approach that can also be applicable to other nitrogen-rich organic precursors, such as melamine, cyanamide, and thiourea. Importantly, the present process enables scale-up production of g-C3N4 for several grams in minutes.

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