EVALUATION OF THE GRAPHENE OXIDE (GO) ROLE IN THE PHOTOCATALYTIC GENERATION OF HYDROGEN IN BINARY (GO-CdS) AND TERNARY (Pt-GO-CdS) SYSTEMS

Almeida Cristiane Gomes; Trindade Tuany Nascimento dos Santos; Silva Marcus Vinicius Santos da; Silva Luciana Almeida

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EVALUATION OF THE GRAPHENE OXIDE (GO) ROLE IN THE PHOTOCATALYTIC GENERATION OF HYDROGEN IN BINARY (GO-CdS) AND TERNARY (Pt-GO-CdS) SYSTEMS

机译：氧化石墨烯（GO）在二元（GO-CdS）和三元（Pt-GO-CdS）系统中光催化生成氢中的作用的评估

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Water splitting is a promising process to produce hydrogen from friendly feedstock and solar energy. In this work we have evaluated binary (GO-CdS) and ternary (Pt-GO-CdS) hybrid photocatalysts for hydrogen production assisted by visible light irradiation. Cadmium sulfide and composites with GO were prepared by sonochemical and thermal methods. GO addition took place by different strategies: during the synthesis or by mechanical mixture. A variety of configurations was tested and the best performance in hydrogen production among all materials was the ternary photocatalyst named Pt(GO/CdSTT), whose hydrogen production rate was 651 ?μmol gcat-1 h-1. Such material was obtained by thermal method with GO addition during the synthesis. Additionally, the XRD and Raman analyses have confirmed the GO photoreduction during photocatalytic hydrogen evolution.

机译：水分解是从友好的原料和太阳能生产氢的有前途的过程。在这项工作中，我们评估了二元（GO-CdS）和三元（Pt-GO-CdS）杂化光催化剂在可见光辐照下产生氢气的能力。通过声化学和热方法制备了硫化镉和GO的复合材料。 GO的添加通过不同的策略进行：在合成过程中或通过机械混合。测试了多种配置，在所有材料中产氢性能最佳的是三元光催化剂Pt（GO / CdSTT），其产氢率为651μμmolgcat-1 h-1。在合成过程中通过添加GO的热方法获得这种材料。此外，XRD和拉曼分析已证实在光催化制氢过程中GO光还原。

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《Quimica nova》 |2018年第7期|共8页
作者
Almeida Cristiane Gomes; Trindade Tuany Nascimento dos Santos; Silva Marcus Vinicius Santos da; Silva Luciana Almeida;
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中图分类化学;
关键词
water splittinghydrogenphotocatalysisgraphenecadmium sulfidevisible light.;

机译：裂解水氢光催化石墨烯硫化镉可见光;

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EVALUATION OF THE GRAPHENE OXIDE (GO) ROLE IN THE PHOTOCATALYTIC GENERATION OF HYDROGEN IN BINARY (GO-CdS) AND TERNARY (Pt-GO-CdS) SYSTEMS

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