In situ formed oxy/hydroxide antennas accelerating the water dissociation kinetics on a Co@N-doped carbon core-shell assembly for hydrogen production in alkaline solution

Yang Tao; Pei Lang; Yan Shicheng; Yu Zhentao; Yu Tao; Zou Zhigang

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In situ formed oxy/hydroxide antennas accelerating the water dissociation kinetics on a Co@N-doped carbon core-shell assembly for hydrogen production in alkaline solution

机译：原位形成氧/氢氧化物天线，加速在CO @ n掺杂的碳芯 - 壳组件上的水解离动力学，用于碱性溶液中的氢生产

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The hydrogen evolution reaction (HER) in alkaline electrolytes is restricted severely by sluggish water dissociation in the Volmer step. Here, we embedded Co crystals into a N-doped carbon (Co@NC) on nickel foam (NF) framework and electrochemically oxidized them in situ to construct a CoOxHy [a mixture of Co(OH)(2) and CoOOH] antenna-modified Co@NC core-shell assembly (NF/Co@NC/CoOxHy). The CoOxHy antennas significantly decreased the activation energy of water dissociation to protons (the Volmer step), and hydrogen production over the Co core activated NC shell may follow a multi-carbon catalytic mechanism activated by Co and N atoms. As a result, the NF/Co@NC/CoOxHy configuration exhibits a 40 mV onset potential, a low HER overpotential of 51 mV at 10 mA cm(-2), and a current density still reaching around 20 mA cm(-2) after 55 h of stability testing in alkaline electrolyte. Our material functionalization strategy may open up a new approach for developing water-alkali electrolysers for use in efficient renewable energy conversion.

机译：在Volmer步骤中，通过缓慢的水解离，碱性电解质中的氢进化反应（她）受到严重限制。在此，我们将CO晶体嵌入镍泡沫（NF）框架上的N掺杂碳（CO @ NC）中，并以原位电化学氧化它们以构建CoOxhy [Co（OH）（2）和CoOOH的混合物）天线 - 改进的CO @ NC核心壳组件（NF / CO @ NC / COOXHY）。 Cooxhy天线显着降低了与质子（Volmer步骤）（Volmer步骤）的水解离的活化能量，并且通过CO核心活化的NC壳体上的氢产生可以遵循由CO和N原子激活的多碳催化机理。结果，NF / CO @ NC / Cooxhy配置表现出40mV发作电位，其低于10 mA cm（-2）的低于51mV的低调，并且电流密度仍然达到约20mAcm（-2）在碱性电解质中稳定性测试55小时后。我们的材料官能化策略可以开辟一种用于开发水碱电解器的新方法，以便在有效的可再生能源转换中使用。

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来源
《Dalton transactions: An international journal of inorganic chemistry 》 |2019年第31期| 共7页
作者
Yang Tao; Pei Lang; Yan Shicheng; Yu Zhentao; Yu Tao; Zou Zhigang;
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作者单位

Nanjing Univ Collaborat Innovat Ctr Adv Microstruct Jiangsu Key Lab Artificial Funct Mat Coll Engn &

Natl Lab Solid State Microstruct Ecomat &

Renewab Nanjing 210093 Jiangsu Peoples R China;

Hangzhou Dianzi Univ Coll Mat &

Environm Engn Hangzhou 310018 Zhejiang Peoples R China;

Nanjing Univ Collaborat Innovat Ctr Adv Microstruct Jiangsu Key Lab Artificial Funct Mat Coll Engn &

Natl Lab Solid State Microstruct Ecomat &

Renewab Nanjing 210093 Jiangsu Peoples R China;

Nanjing Univ Collaborat Innovat Ctr Adv Microstruct Jiangsu Key Lab Artificial Funct Mat Coll Engn &

Natl Lab Solid State Microstruct Ecomat &

Renewab Nanjing 210093 Jiangsu Peoples R China;

Nanjing Univ Sch Phys Jiangsu Prov Key Lab Nanotechnol Nanjing 210093 Jiangsu Peoples R China;

Nanjing Univ Collaborat Innovat Ctr Adv Microstruct Jiangsu Key Lab Artificial Funct Mat Coll Engn &

Natl Lab Solid State Microstruct Ecomat &

Renewab Nanjing 210093 Jiangsu Peoples R China;

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正文语种 eng
中图分类化学 ; 无机化学 ;
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1. In situ formed oxy/hydroxide antennas accelerating the water dissociation kinetics on a Co@N-doped carbon core-shell assembly for hydrogen production in alkaline solution [J] . Yang Tao, Pei Lang, Yan Shicheng, Dalton transactions: An international journal of inorganic chemistry . 2019 ,第31期

机译：原位形成氧/氢氧化物天线，加速在CO @ n掺杂的碳芯 - 壳组件上的水解离动力学，用于碱性溶液中的氢生产
2. Efficient alkaline hydrogen evolution on atomically dispersed Ni–N_x Species anchored porous carbon with embedded Ni nanoparticles by accelerating water dissociation kinetics [J] . Lei Chaojun, Wang Yu, Hou Yang, Energy & environmental science . 2019 ,第1期

机译：通过加速水离解动力学，在原子分散的Ni–N_x物种上通过嵌入的Ni纳米颗粒锚固多孔碳有效地释放出碱性氢
3. Efficient alkaline hydrogen evolution on atomically dispersed Ni–N_x Species anchored porous carbon with embedded Ni nanoparticles by accelerating water dissociation kinetics [J] . Lei Chaojun, Wang Yu, Hou Yang, Energy & environmental science . 2019 ,第1期

机译：通过加速水解离动力学，对原子分散的Ni-N_X物种对原子分散的Ni-N_X物种的高效碱性氢气进化
4. Thermochemical Dissociation of Water and Carbon Dioxide via ZnSI Cycle for Hydrogen and Carbon Monoxide Production [C] . Qiaoqiao Zhu, Yanwei Zhang, Zhihua Wang, World hydrogen energy conference . 2012

机译：ZnSI循环对水和二氧化碳进行热化学分解，产生氢气和一氧化碳
5. The Apparent Kinetics of Hydrogen Production with Water-Slurred Aluminum Delivery in Aqueous Sodium Hydroxide Solutions [D] . Noland, Brian Michael John. 2019

机译：氢氧化钠水溶液中水浆铝递送的氢气产生表观动力学
6. Accelerated alkaline hydrogen evolution on M(OH)x/M-MoPOx (M = Ni Co Fe Mn) electrocatalysts by coupling water dissociation and hydrogen ad-desorption steps [O] . Lishan Peng, Mansheng Liao, Xingqun Zheng, 2020

机译：通过偶联水解离解和氢气探测步骤加速碱性氢气 - 碱性氢进化M（OH）X / M-MOPOX（M = NICOFeMn）电催化剂
7. Electrochemical Transformation of Metal Organic Framework into Ultrathin Metal Hydroxide-(oxy)hydroxide Nanosheets for Alkaline Water Oxidation [O] . -1

机译：金属有机骨架的电化学改造，以碱性水氧化的超薄金属氢氧化物 - （氧化氢）氢氧化物纳米液

In situ formed oxy/hydroxide antennas accelerating the water dissociation kinetics on a Co@N-doped carbon core-shell assembly for hydrogen production in alkaline solution

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