Carbon-Bridged g-C3N4 Nanosheets for High Hydrogen Evolution Rate by a Two-Step Gaseous Treatment

Guangqing Xu; Zhiwei Wang; Qing Liu

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Carbon-Bridged g-C3N4 Nanosheets for High Hydrogen Evolution Rate by a Two-Step Gaseous Treatment

机译：两步气体处理

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Carbon nitride (g-C3N4) possesses a bright prospect in trans- forming solar power into chemical energy by photocatalytic hydrogen production. However, low specific surface area and rapid charges recombination of bulk g-C3N4 obtained by direct thermal polymerization restrict its photocatalytic water splitting efficiency. Herein, carbon-bridged g-C3N4 hybrid nanosheets were synthesized by a two-step gaseous treatment composed of gaseous stripping in wet N2 ambience and carbon deposition in ethanol ambience. The obtained hybrids possess high optical absorption and low recombination rate at the same time. Furthermore, the deposited carbon acts as the “bridge” between g-C3N4 and co-catalyst Pt, which facilitates the electron transfer.

机译：氮化碳（G-C3N4）通过光催化氢的生产将太阳能转移到化学能方面具有明亮的前景。但是，通过直接热聚合获得的大量G-C3N4的低比表面积和快速充电重组限制了其光催化水的分裂效率。本文中，由碳桥的G-C3N4杂交纳米片通过两步气体的处理合成，该处理由湿的N2氛围中的气态剥离和乙醇氛围中的碳沉积组成。获得的杂种同时具有高光吸收和低重组率。此外，沉积的碳充当G-C3N4和共催化剂PT之间的“桥”，从而促进电子传输。

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来源
《Chemistry Select》 |2019年第45期|13064-13070|共7页
作者
Guangqing Xu; Zhiwei Wang; Qing Liu;
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作者单位

School of Materials Science and Engineering, Hefei University of Technology, Hefei 230009, China;

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原文格式 PDF
正文语种英语
中图分类 Online;
关键词
hydrogen production; ambience; OPTICAL ABSORPTIONSolar powerHydrogen evolutionchemical energyelectron transferCARBON DEPOSITIONNanosheetsRedox processes;

机译：氢的产生;氛围;光吸收极尿液进化化学能量转移碳沉积nanosheetsredsredox工艺;

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Carbon-Bridged g-C3N4 Nanosheets for High Hydrogen Evolution Rate by a Two-Step Gaseous Treatment

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