Ruthenium nanoparticles supported on carbon-based nanoallotropes as co-catalyst to enhance the photocatalytic hydrogen evolution activity of carbon nitride

Alvarez-Prada Ignacio; Peral Daniel; Song Mary; Munoz Jose; Romero Nuria; Escriche Lluis; Acharjya Amitava; Thomas Arne; Schomacker Reinhard; Schwarze Michael; Sala Xavier; Tasbihi Minoo; Garcia-Anton Jordi

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Ruthenium nanoparticles supported on carbon-based nanoallotropes as co-catalyst to enhance the photocatalytic hydrogen evolution activity of carbon nitride

机译：支持碳基纳米球的钌纳米粒子作为助催化剂，以增强氮化物的光催化催化氢进化活性

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Development of competent and cost-effective materials for hydrogen evolution reaction (HER) has been attracting great attention since hydrogen is hailed as a promising environmentally friendly energy source to reduce the greenhouse emissions. Herein, Ru(0) nanoparticles (RuNPs) have been stabilized onto the surface of four different conducting carbon nanomaterials (CNMs) from 0D to 3D, such as 0D carbon nanohorns (CNH), 1D single-walled carbon nanotubes (CNTs), 2D reduced graphene oxide (rGO) and 3D graphite (GP), for their use in the photocatalytic HER. For this aim, the resulting RuNP@CNMs where physically mixed with mesoporous graphitic carbon nitride (mpg-CN) in an optimum composition ratio to maximize the photocatalytic HER activity. Notably, the resulting four hybrid RuNPs@CNM/mpg-CN materials showed an outstanding increase in the hydrogen evolution reaction (HER) when compared with the pristine mesoporous graphitic carbon nitride without co-catalyst. A comparison on the photocatalytic activity of the four hybrid RuNPs@CNMs physically mixed with mpg-CN and a deep study on the fate of the nanohybrids after catalysis are presented. (c) 2020 Elsevier Ltd. All rights reserved.

机译：发展氢气进化反应（她）的能力和成本效益的发展已经引起了极大的关注，因为氢气被誉为有前途的环保能源来减少温室排放。在此，Ru（0）纳米颗粒（RUNP）已经稳定在0d至3d的四种不同导电碳纳米材料（CNMS）的表面上，例如0d碳纳米冬叶（CNH），1d单壁碳纳米管（CNT），2D石墨烯氧化物（RGO）和3D石墨（GP），用于其在光催化剂中。为此目的，所得的RunP @ CNMS以最佳的组成比物理地与中孔石墨碳氮化物（MPG-CN）混合，以最大化光催化的她的活性。值得注意的是，与无助催化剂的原始介孔石墨碳氮化物相比，所得四个杂交RUNPS @ CNM / MPG-CN材料显示出氢进化反应（她）的出色增加。提出了与MPG-CN物理混合的四种杂交RUNP @ CNMS的光催化活性的比较，并呈现催化纳米后纳米油状物的深入研究。（c）2020 elestvier有限公司保留所有权利。

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来源
《Renewable energy》 |2021年第5期|668-675|共8页
作者
Alvarez-Prada Ignacio; Peral Daniel; Song Mary; Munoz Jose; Romero Nuria; Escriche Lluis; Acharjya Amitava; Thomas Arne; Schomacker Reinhard; Schwarze Michael; Sala Xavier; Tasbihi Minoo; Garcia-Anton Jordi;
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作者单位

Univ Autonoma Barcelona Dept Quim Unitat Quim Inorgan Barcelona 08193 Spain;

Tech Univ Berlin Dept Chem D-10623 Berlin Germany;

Tech Univ Berlin Dept Chem D-10623 Berlin Germany;

Univ Autonoma Barcelona Dept Quim Barcelona 08193 Spain;

Univ Autonoma Barcelona Dept Quim Unitat Quim Inorgan Barcelona 08193 Spain;

Univ Autonoma Barcelona Dept Quim Unitat Quim Inorgan Barcelona 08193 Spain;

Tech Univ Berlin Inst Chem Funct Mat D-10623 Berlin Germany;

Tech Univ Berlin Inst Chem Funct Mat D-10623 Berlin Germany;

Tech Univ Berlin Dept Chem D-10623 Berlin Germany;

Tech Univ Berlin Dept Chem D-10623 Berlin Germany;

Univ Autonoma Barcelona Dept Quim Unitat Quim Inorgan Barcelona 08193 Spain;

Tech Univ Berlin Dept Chem D-10623 Berlin Germany;

Univ Autonoma Barcelona Dept Quim Unitat Quim Inorgan Barcelona 08193 Spain;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Hydrogen; Hydrogen evolution reaction; Ruthenium; Carbon nitride; Photocatalysis;

机译：氢气;氢进化反应;钌;碳氮化物;光催化;

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1. Revealing important role of graphitic carbon nitride surface catalytic activity in photocatalytic hydrogen evolution by using different carbon co-catalysts [J] . Si Yanjie, Lv Zaozao, Lu Luhua, Applied Surface Science . 2019,第OCTa15期

机译：通过使用不同的碳助催化剂揭示石墨碳氮化物表面催化活性在光催化制氢中的重要作用
2. Revealing important role of graphitic carbon nitride surface catalytic activity in photocatalytic hydrogen evolution by using different carbon co-catalysts [J] . Si Yanjie, Lv Zaozao, Lu Luhua, Applied Surface Science . 2019,第Octa15期

机译：通过使用不同碳助催化剂，揭示石墨氮化物表面催化活性在光催化氢逸出中的重要作用
3. Platinum nanoparticles strongly associated with graphitic carbon nitride as efficient co-catalysts for photocatalytic hydrogen evolution under visible light [J] . Yasuhiro Shiraishi, Yusuke Kofuji, Shunsuke Kanazawa, Chemical Communications . 2014,第96期

机译：与石墨氮化碳紧密相关的铂纳米颗粒，是可见光下光催化氢释放的有效助催化剂
4. Site-Selective Deposition of Ordered Intermetallic PtPb Nanoparticle Co-catalysts on WO_3 Surfaces to Enhance Photocatalytic Activity [C] . Takao Gunji, Takashi Tsuda, Arockiam John Jeevagan, Solar fuels and photocatalysts 3 . 2014

机译：在WO_3表面上有序金属间PtPb纳米粒子助催化剂的选择性沉积以增强光催化活性
5. Electrocatalysts as Co-Catalysts for Enhanced Photocatalytic Hydrogen Evolution [D] . Tong, Rui. 2020

机译：电催化剂作为增强光催化氢气进化的助催化剂
6. Cadmium Sulfide and Nickel Synergetic Co-catalysts Supported on Graphitic Carbon Nitride for Visible-Light-Driven Photocatalytic Hydrogen Evolution [O] . Xinzheng Yue, Shasha Yi, Runwei Wang, -1

机译：石墨化氮化碳上负载的硫化镉和镍协同助催化剂用于可见光驱动的光催化氢生成
7. Nickel as a co-catalyst for photocatalytic hydrogen evolution on graphitic-carbon nitride (sg-CN): what is the nature of the active species? [O] . Indra Arindam, Menezes Prashanth W., Kailasam Kamalakannan, 2016

机译：镍作为在石墨碳氮化物（sg-CN）上光催化制氢的助催化剂：活性物质的性质是什么？
8. Kinetic study on the adsorption and reaction of hydrogen over silica-supported ruthenium and silver-ruthenium catalysts during the hydrogenation of carbon monoxide [R] . VanderWiel, D. P. 1999

机译：二氧化碳加氢过程中二氧化硅负载钌和银 - 钌催化剂上氢的吸附和反应动力学研究

Ruthenium nanoparticles supported on carbon-based nanoallotropes as co-catalyst to enhance the photocatalytic hydrogen evolution activity of carbon nitride

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