Relative Efficacy of Co-X-4 Embedded Graphene (X=N, S, B, and P) Electrocatalysts towards Hydrogen Evolution Reaction: Is Nitrogen Really the Best Choice?

Ren Chunjin; Wen Lu; Magagula Saneliswa; Jiang Qianyu; Lin Wei; Zhang Yongfan; Chen Zhongfang; Ding Kaining

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Relative Efficacy of Co-X-4 Embedded Graphene (X=N, S, B, and P) Electrocatalysts towards Hydrogen Evolution Reaction: Is Nitrogen Really the Best Choice?

机译：Co-X-4嵌入的石墨烯（X = N，S，B和P）电催化剂对氢进化反应的相对功效：氮真的是最佳选择？

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We perform first-principles calculations to investigate whether or not nitrogen is the best dopant in system of Co-X-4 embedded graphene (X=N, S, B, and P) electrocatalysts towards hydrogen evolution reaction(HER). Our theoretical results reveal that N, S, B, and P-doped graphene can enhance the catalytic activity toward HER compared with the pristine graphene, and S doped graphene exhibits more favorable performance than N doped graphene, consistent with the experimental results. For the Co-X-4 embedded graphene (X=N, S, B, and P), we predict that S may be a promising dopant in graphene supported single atom Co. The rather low hydrogen adsorption free energy (-0.07 eV) and activation energy barrier (0.78 eV) for the rate-determining step, the downshift of the d band center, the enhanced charge density of d(z)(2) orbital as well as the reduced work function are responsible for the unexpected activity of Co-S-4 embedded graphene for HER. Overall, Co-S-4 embedded graphene catalyst could be a good candidate for hydrogen evolution reaction.

机译：我们执行第一原理计算以研究氮是否是Co-X-4嵌入的石墨烯（X = N，S，B和P）电催化剂的最佳掺杂剂，朝向氢进化反应（她）。我们的理论结果表明，与原始石墨烯相比，N，S，B和P掺杂的石墨烯可以增强对其催化活性，并且S掺杂的石墨烯表现出比N掺杂石墨烯更有利的性能，与实验结果一致。对于Co-X-4嵌入的石墨烯（X = N，S，B和P），我们预测石墨烯支撑的单个原子Co.相当低的氢吸附能量（-0.07eV）中可能是一个有前途的掺杂剂和激活能量屏障（0.78eV）对于速率确定步骤，D频带中心的降档，D（Z）（2）轨道的增强电荷密度以及减少的工作函数负责意外的活动CO-S-4嵌入石墨烯为她。总体而言，CO-S-4嵌入的石墨烯催化剂可能是氢化反应的良好候选物。

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来源
《ChemCatChem》 |2020年第2期|共8页
作者
Ren Chunjin; Wen Lu; Magagula Saneliswa; Jiang Qianyu; Lin Wei; Zhang Yongfan; Chen Zhongfang; Ding Kaining;
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作者单位

Fuzhou Univ Res Inst Photocatalysis Coll Chem State Key Lab Photocatalysis Energy &

Environm Fuzhou 350108 Fujian Peoples R China;

Fuzhou Univ Res Inst Photocatalysis Coll Chem State Key Lab Photocatalysis Energy &

Environm Fuzhou 350108 Fujian Peoples R China;

Univ Puerto Rico Coll Chem Inst Funct Nanomat Rio Piedras Campus San Juan PR 00931 USA;

Fuzhou Univ Res Inst Photocatalysis Coll Chem State Key Lab Photocatalysis Energy &

Environm Fuzhou 350108 Fujian Peoples R China;

Fuzhou Univ Res Inst Photocatalysis Coll Chem State Key Lab Photocatalysis Energy &

Environm Fuzhou 350108 Fujian Peoples R China;

Fuzhou Univ Res Inst Photocatalysis Coll Chem State Key Lab Photocatalysis Energy &

Environm Fuzhou 350108 Fujian Peoples R China;

Univ Puerto Rico Coll Chem Inst Funct Nanomat Rio Piedras Campus San Juan PR 00931 USA;

Fuzhou Univ Res Inst Photocatalysis Coll Chem State Key Lab Photocatalysis Energy &

Environm Fuzhou 350108 Fujian Peoples R China;

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正文语种 eng
中图分类物理化学（理论化学）、化学物理学;
关键词
single atom catalysts; Hydrogen Evolution Reaction; DFT computation; two-dimensional material; electrocatalysis;

机译：单个原子催化剂;氢气进化反应;DFT计算;二维材料;电殖分析;

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1. Relative Efficacy of Co-X-4 Embedded Graphene (X=N, S, B, and P) Electrocatalysts towards Hydrogen Evolution Reaction: Is Nitrogen Really the Best Choice? [J] . Ren Chunjin, Wen Lu, Magagula Saneliswa, ChemCatChem . 2020,第2期

机译：Co-X-4嵌入的石墨烯（X = N，S，B和P）电催化剂对氢进化反应的相对功效：氮真的是最佳选择？
2. Hydrogen Evolution Reaction: Cobalt Based Nanoparticles Embedded Reduced Graphene Oxide Aerogel for Hydrogen Evolution Electrocatalyst (Part. Part. Syst. Charact. 7/2019) [J] . Koo Sung Hwan, Li Dong Jun, Yun Taeyeong, Particle & Particle Systems Characterization: Measurement and Description of Particle Properties and Behavior in Powders and Other Disperse Systems . 2019,第7期

机译：氢进化反应：基于钴的纳米粒子嵌入式氢气催化催化剂的还原石墨烯氧化物气凝胶（部分。部分。SYST。挑战。7/2019）
3. Cobalt oxide doped with titanium dioxide and embedded with carbon nanotubes and graphene-like nanosheets for efficient trifunctional electrocatalyst of hydrogen evolution, oxygen reduction, and oxygen evolution reaction [J] . He Linghao, Liu Jiameng, Hu Bin, Journal of power sources . 2019,第FEBa28期

机译：掺有二氧化钛并嵌入碳纳米管和石墨烯状纳米片的氧化钴，可用于高效的三功能电催化剂，用于氢气释放，氧还原和氧气释放反应
4. “MoS2-Pt Deposited on Nitrogen-Doped Carbon Nanotubes as Efficient Electrocatalyst for Hydrogen Evolution Reaction"(PPT) [C] . A.de la Rosa-Gomez, M.L.Garcia-Betancourt, S.M.Duron-Torres AIChE Annual Meeting . 2019

机译：“MOS2-PT沉积在氮掺杂的碳纳米管上，作为氢进化反应的有效电催化剂”（PPT）
5. Quantum Mechanical Studies of Electrocatalysts for the Hydrogen and Oxygen Evolution Reactions [D] . Tkalych, Alexander J. 2018

机译：氢和氧发生反应的电催化剂的量子力学研究
6. Nitrogen-plasma treated hafnium oxyhydroxide as an efficient acid-stable electrocatalyst for hydrogen evolution and oxidation reactions [O] . Xiaofang Yang, Fang Zhao, Yao-Wen Yeh, -1

机译：氮等离子体处理的羟基氧化ha作为氢释放和氧化反应的有效酸稳定电催化剂
7. Hydrogen Evolution Reaction: Cobalt Based Nanoparticles Embedded Reduced Graphene Oxide Aerogel for Hydrogen Evolution Electrocatalyst (Part. Part. Syst. Charact. 7/2019) [O] . Sung Hwan Koo, Dong Jun Li, Taeyeong Yun, 2019

机译：氢气进化反应：基于钴的纳米粒子嵌入式氢气进化电催化剂的含油还原石墨烯氧化物气凝胶（部分。部分。系统。挑战。7/2019）

Relative Efficacy of Co-X-4 Embedded Graphene (X=N, S, B, and P) Electrocatalysts towards Hydrogen Evolution Reaction: Is Nitrogen Really the Best Choice?

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