| Nb掺杂调控CoSeS多级纳米结构用于增强析氢反应 |
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| 引用本文: | 周亚楠,朱宇冉,闫新彤,曹羽宁,李佳,董斌,杨敏,李庆忠,刘晨光,柴永明.Nb掺杂调控CoSeS多级纳米结构用于增强析氢反应[J].催化学报,2021,42(3):431-438,中插25-中插28. |
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| 作者姓名: | 周亚楠 朱宇冉 闫新彤 曹羽宁 李佳 董斌 杨敏 李庆忠 刘晨光 柴永明 |
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| 作者单位: | 中国石油大学(华东)理学院, 重质油国家重点实验室, 山东青岛266580;烟台大学化学化工学院, 理论计算化学实验室, 山东烟台264005 |
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| 基金项目: | This work was supported by the National Natural Science Foundation of China ;中央高校基本科研业务费专项基金;国家自然科学基金;and the Fundamental Research Funds for the Central Universities |
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| 摘 要: | 电催化析氢(HER)是清洁制氢的一种有效途径,对于氢经济和氢能产业的发展具有重要意义.金属掺杂是提高电催化剂本征活性的有效方法,导电基底的采用也有利于电荷传输和催化性能的整体提高.尽管已有关于硒化物作为HER催化剂的相关报道,但是合成条件有限、导电性、本征活性的影响,其电催化性能仍有提升的空间.此外,在酸性电解液中的腐蚀和氧化极大限制了催化剂性能的发挥.基于此,本文以氮掺杂碳球为载体,采用金属Nb掺杂、非金属硫硒化物协同以及表面碳包覆的三重策略,将掺杂元素Nb和活性位中心元素Co封装到氮掺杂碳纳米球内并进行连续的硫硒化反应,成功构筑多级纳米结构(Nb-CoSeS@NC)以提高其电催化析氢性能.碳球可为活性位的生长和分散提供足够的空间,同时有效防止活性金属的腐蚀和分解,并阻止金属纳米颗粒的团聚.硫化过程实现了非金属硫元素的掺杂,对于提高硒化物的催化活性和导电性都有重要作用.通过扫描电镜(SEM)、透射电镜(TEM)、X射线衍射(XRD)、拉曼光谱、X射线光电子能谱(XPS)及电催化性能测试,详细研究了Nb-CoSeS@NC独特的纳米结构和电催化制氢性能,并分析了构效关系.XRD结果发现,引入Nb后Co9Se8和CoSe的特征峰移向更高的角度,表明其晶格体积的减小,有助于电荷传输.同时,氮掺杂碳球(NC)在26°可以观察到无定型碳的峰,而石墨碳的D带和G带强度比约为1.05,均表明NC中缺陷的存在,这可以进一步提高碳材料的导电性.SEM和TEM表征显示,催化剂为直径120 nm的均匀的纳米核壳结构,壳层约为30 nm,无明显的团聚和破碎,这是催化剂具有高稳定性的重要原因.表面的褶皱保证了大的活性比表面积,可以大大增加活性位点的数量.同时,催化剂与NC之间的紧密结合可以降低电子传输的阻抗进而改善其稳定性和析氢性能.分析高分辨率的TEM结果发现,Nb掺杂后,Nb-CoSeS@NC中Co9Se8的(222)晶面由0.301 nm减小至0.184 nm,与XRD结果相符.XPS表征揭示了引入Nb之后的电子效应.与CoSeS@NC相比,Nb的掺杂使Co 2p向更低的结合能移动,而Se 3d则移向高结合能移动,这是由于Nb导致了更强的电子相互作用.在0.5 M的H2SO4中测试催化剂的析氢性能,Nb-CoSeS@NC仅需115 mV的过电位便可以实现10 mA cm-2的电流密度,Tafel斜率为43 mV dec-1,优于CoSeS@NC等其他对比样品,且优于大多数掺杂型硒化物电催化剂.经过12 h稳定性测试,电流密度未见明显降低,表明该多级结构催化剂的优异稳定性.Nb-CoSeS@NC提高活性可归因为Nb的掺杂增强了催化剂的电子相互作用,有助于提高的其本征导电性.Nb、Co正离子可以形成氢化物-受体中心,可能会削弱S-H键和Se-H键,并促进H-H键的形成,因此,多元掺杂产生的协同效应可以有效促进HER过程.此外,坚固的氮掺杂纳米碳壳为活性位点的分散提供了足够的空间和优异的电荷传输性能,同时降低了金属活性位腐蚀的可能性.
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| 关 键 词: | 铌 硫硒化钴 氮掺杂碳纳米球 多掺杂 析氢反应 |
Hierarchical Co Se S nanostructures assisted by Nb doping forenhanced hydrogen evolution reaction |
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| Ya-Nan Zhou,Yu-Ran Zhu,Xin-Tong Yan,Yu-Ning Cao,Jia Li,Bin Dong,Min Yang,Qing-Zhong Li,Chen-Guang Liu,Yong-Ming Chai.Hierarchical Co Se S nanostructures assisted by Nb doping forenhanced hydrogen evolution reaction[J].Chinese Journal of Catalysis,2021,42(3):431-438,中插25-中插28. |
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| Authors: | Ya-Nan Zhou Yu-Ran Zhu Xin-Tong Yan Yu-Ning Cao Jia Li Bin Dong Min Yang Qing-Zhong Li Chen-Guang Liu Yong-Ming Chai |
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| Institution: | (State Key Laboratory of Heavy Oil Processing,College of Science,China University of Petroleum(East China),Qingdao 266580,Shandong,China;The Laboratory of Theoretical and Computational Chemistry,School of Chemistry and Chemical Engineering,Yantai University,Yantai 264005,Shandong,China) |
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| Abstract: | Metal doping for active sites exhibits remarkable potential for improving the hydrogen evolution reaction (HER). Multi-doping and the use of a conductive substrate can further modulate catalytic performance. Herein, Nb-CoSe well dispersed in N-doped carbon nanospheres (NCs, Nb-CoSe@NC) was synthesized to serve as a conductive substrate and facilitated good dispersion of active sites for the HER. Nb doping can also change the electronic structure of CoSe, which facilitates the activity for the HER. In order to further improve the conductivity and intrinsic activity of Nb-CoSe@NC, dual, nonmetal doping was realized through gas sulfurization to prepare hierarchical Nb-CoSeS@NC. The prepared Nb-CoSeS@NC, with a core-shell structure, exhibited a low overpotential of 115 mV at 10 mA cm–2, which is smaller than that of the most doped catalysts. In addition, NCs not only improved the dispersion and conductivity of the catalyst but also prevented metal corrosion in an electrolyte, thus facilitating the long-term stability of Nb-CoSeS@NC. Moreover, the synergistic effect of the multi-doping of Nb, S, and Se was explained. This work provides a promising, multi-doping strategy for the large-scale application of transition-metal-based electrocatalysts for the HER. |
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| Keywords: | Nb CoSeS N-doped carbon nanosphere Multi-doping Hydrogen evolution reaction |
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