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MoS_(2)/Ru异质结构的制备及其电催化析氢反应性能 被引量:5
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作者 马海霞 王太和 +2 位作者 赵玉洁 王旭 李嘉辰 《材料工程》 EI CAS CSCD 北大核心 2022年第4期44-52,共9页
二维层状二硫化钼(MoS_(2))是一种非常有前景的替代贵金属铂的电水解制氢催化剂。然而,MoS_(2)电子导电性较差,且在碱性氢析出反应(HER)中对水分子吸附/裂解的活化能垒较高,限制其在碱性电水解的应用。通过一步水热法将MoS_(2)纳米片均... 二维层状二硫化钼(MoS_(2))是一种非常有前景的替代贵金属铂的电水解制氢催化剂。然而,MoS_(2)电子导电性较差,且在碱性氢析出反应(HER)中对水分子吸附/裂解的活化能垒较高,限制其在碱性电水解的应用。通过一步水热法将MoS_(2)纳米片均匀生长在三维导电碳布(CC)上,以有效提高电极导电性。随后在RuCl_(3)的乙醇溶液中通过溶剂热法可控制备超小Ru纳米颗粒负载MoS_(2)纳米片,形成CC@MoS_(2)/Ru异质结构。Ru的负载能有效促进水吸附/裂解反应,从而和MoS_(2)协同催化HER。采用X射线粉末衍射(XRD)、X射线光电子能谱(XPS)、扫描电子显微镜(SEM)、透射电子显微镜(TEM)等方法对MoS_(2)/Ru进行结构和形貌表征。结果表明:MoS_(2)呈纳米片状交错生长在碳布上,并且超小Ru纳米颗粒(平均粒径2.5 nm)均匀负载在MoS_(2)纳米片上。将CC@MoS_(2)/Ru作为工作电极,石墨棒和Hg/HgO电极分别为对电极和参比电极进行碱性HER测试。在电流密度为-10 mA·cm^(-2)下的过电位仅为71.3 mV,Tafel斜率为104.8 mV·dec^(-1)。通过对其进行计时电位滴定法稳定性测试,发现在恒电流密度-10 mA·cm^(-2)下能够维持至少35 h而没有明显性能衰减。 展开更多
关键词 MoS_(2)/ru异质结构 电催化 碱性氢析出反应 协同作用
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Engineering heterostructure and crystallinity of Ru/RuS_(2) nanoparticle composited with N-doped graphene as electrocatalysts for alkaline hydrogen evolution
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作者 Xuyun Gao Bo Li +5 位作者 Xuzhuo Sun Baofan Wu Yanping Hu Zhichao Ning Jun Li Ning Wang 《Chinese Chemical Letters》 SCIE CAS CSCD 2021年第11期3591-3595,共5页
Crystalline engineering and heterostructure have attracted much attention as effective strategies to improve the electrocatalytic activity for hydrogen evolution reaction(HER).In this study,a new heterostructure catal... Crystalline engineering and heterostructure have attracted much attention as effective strategies to improve the electrocatalytic activity for hydrogen evolution reaction(HER).In this study,a new heterostructure catalyst(Ru/RuS_(2)@N-rGO)with low crystallinity was fabricated by a simple and low-temperature method for HER in alkaline solution,applying the Na_(2)SO_(4)as S source and polypyrrole as N source.Optimizing through the controllable crystalline engineering and composition ratio of Ru and RuS_(2),the Ru/RuS_(2)@N-rGO heterocatalyst at the calcining 500°C revealed highly efficient HER activity with overpotential 18 mV at a current density 10 mA/cm^(2)and remarkable stability for 24 h in 1.0 mol/L KOH.This work provides a facile and effective method in designing advanced electrocatalysts for HER in the alkaline electrolytes by synergistically structural and component modulations. 展开更多
关键词 Low crystallinity ru/rus_(2)heterostructure GRAPHENE Electrocatalytic hydrogen evolution Alkaline solution
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