Ultrathin Ni(OH)(2) nanosheets: a new strategy for cocatalyst design on CdS surfaces for photocatalytic hydrogen generation

Mao Liqun; Ba Qianqian; Jia Xinjia; Liu Shuang; Liu Heng; Zhang Jing; Li Xiying; Chen Wei

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Ultrathin Ni(OH)(2) nanosheets: a new strategy for cocatalyst design on CdS surfaces for photocatalytic hydrogen generation

机译：Ulthathin Ni（OH）（2）Nanosheets：光催化氢生成CDS表面的助催化剂设计的新策略

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Ultrathin metal materials exhibit quantum size and surface effects that give rise to unique catalytic properties. In this paper, we report a facile liquid synthesis method for polyvinylpyrrolidone (PVP, K30) capped ultrathin Ni(OH)(2) nanosheets with lamellar structure. The as-prepared ultrathin Ni(OH)(2) nanosheets coupled with CdS nanorods exhibit excellent activity in hydrogen generation from water splitting under visible light. The H-2 evolution rate of Ni(OH)(2)/CdS, 40.18 mmol h(-1) g(Cat.)(-1) with a quantum efficiency of 66.1% at 420 nm, is ca. 1.5 times that of Pt/CdS with an optimal loading amount (1.25 wt%) under the same reaction conditions. Considering the cost of photocatalysts, the ultrathin Ni(OH)(2) nanosheet coupled CdS photocatalyst may have a promising commercial application in photocatalytic hydrogen production.

机译：超薄金属材料表现出量子尺寸和表面效应，其产生独特的催化性能。在本文中，我们报告了聚乙烯吡咯烷酮（PVP，K30）的容液合成方法，其具有层状结构的超薄超薄Ni（OH）（2）纳米晶片。与CDS纳米棒偶联的AS制备的超薄Ni（OH）（2）纳米片在可见光下的水分裂中具有优异的氢气产生。 Ni（OH）（2）/ Cds，40.18mmol H（-1）g（猫。）（ - 1）的H-2进化率，量子效率为420nm，是CA. 在相同的反应条件下具有最佳装载量（1.25wt％）的Pt / Cds的1.5倍。考虑到光催化剂的成本，超薄Ni（OH）（2）纳米耦合CDS光催化剂可能具有在光催化氢生产中的有前途的商业应用。

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《RSC Advances》 |2019年第3期|共10页
作者
Mao Liqun; Ba Qianqian; Jia Xinjia; Liu Shuang; Liu Heng; Zhang Jing; Li Xiying; Chen Wei;
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Henan Univ Henan Engn Res Ctr Resource &

Energy Recovery Was Kaifeng 475004 Peoples R China;

Henan Univ Henan Engn Res Ctr Resource &

Energy Recovery Was Kaifeng 475004 Peoples R China;

Henan Univ Henan Engn Res Ctr Resource &

Energy Recovery Was Kaifeng 475004 Peoples R China;

Henan Univ Henan Engn Res Ctr Resource &

Energy Recovery Was Kaifeng 475004 Peoples R China;

Henan Univ Henan Engn Res Ctr Resource &

Energy Recovery Was Kaifeng 475004 Peoples R China;

Henan Univ Henan Engn Res Ctr Resource &

Energy Recovery Was Kaifeng 475004 Peoples R China;

Henan Univ Henan Engn Res Ctr Resource &

Energy Recovery Was Kaifeng 475004 Peoples R China;

Henan Univ Henan Engn Res Ctr Resource &

Energy Recovery Was Kaifeng 475004 Peoples R China;

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中图分类化学;
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1. Ultrathin Ni(OH)(2) nanosheets: a new strategy for cocatalyst design on CdS surfaces for photocatalytic hydrogen generation [J] . Mao Liqun, Ba Qianqian, Jia Xinjia, RSC Advances . 2019,第3期

机译：Ulthathin Ni（OH）（2）Nanosheets：光催化氢生成CDS表面的助催化剂设计的新策略
2. Ultrathin Ni(OH)2 nanosheets: a new strategy for cocatalyst design on CdS surfaces for photocatalytic hydrogen generation [J] . Liqun Mao, Qianqian Ba, Xinjia Jia, RSC Advances . 2019,第3期

机译：Ni（OH）2超薄纳米片：在CdS表面设计助催化剂以产生光催化氢的新策略
3. Pt-Ni-x alloy nanoparticles: a new strategy for cocatalyst design on a CdS surface for photo-catalytic hydrogen generation [J] . Mao Liqun, Ba Qianqian, Liu Shuang, RSC Advances . 2018,第55期

机译：Pt-Ni-X合金纳米粒子：光催化氢气CDS表面上的CDTalyst设计的新策略
4. Surface modification-a novel way of attaching cocatalysts on CdS semiconductors for photocatalytic hydrogen evolution [C] . Weili Yu, Tayirjan Isimjan, Bin Lin, International Conference on Structural Nano Composites . 2015

机译：表面改性 - 一种在光催化氢进化中对CDS半导体的含有Coctatalys的一种新方法
5. PHOTOCATALYTIC HYDROGEN PRODUCTION FROM WATER AND INTERMETALLIC COMPOUND FORMATION ON SINGLE-CRYSTAL SURFACES OF TITANIUM-OXIDES [D] . WAGNER, FREDERICK TADEUSZ 1981

机译：水的光催化产氢和二氧化钛单晶表面上的金属间化合物形成
6. Enhanced Photocatalytic Hydrogen Evolution by Loading Cd0.5Zn0.5S QDs onto Ni2P Porous Nanosheets [O] . Lingfeng Xiao, Tong Su, Zhuo Wang, 2018

机译：通过将Cd0.5Zn0.5S量子点加载到Ni2P多孔纳米片上来增强光催化氢的释放
7. Improved visible-light photocatalytic H 2 generation over CdS nanosheets decorated by NiS 2 and metallic carbon black as dual earth-abundant cocatalysts [O] . Song Ma, Xingmin Xu, Jun Xie, 2017

机译：改进的可见光光催化H 2在CDS Nanoshs上由NIS 2和金属炭黑装饰为双层含有双层含有的Cocatalysts

Ultrathin Ni(OH)(2) nanosheets: a new strategy for cocatalyst design on CdS surfaces for photocatalytic hydrogen generation

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