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首页> 外文期刊>Advanced Functional Materials >MoS_x@Nio Composite Nanostructures: An Advanced Nonprecious Catalyst for Hydrogen Evolution Reaction in Alkaline Media
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MoS_x@Nio Composite Nanostructures: An Advanced Nonprecious Catalyst for Hydrogen Evolution Reaction in Alkaline Media

机译:MoS_x @ Nio复合纳米结构:碱性介质中氢气析出反应的高级非贵金属催化剂

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摘要

The design of the earth-abundant, nonprecious, efficient, and stable electrocatalysts for efficient hydrogen evolution reaction (HER) in alkaline media is a hot research topic in the field of renewable energies. A heterostructured system composed of MoSx deposited on NiO nanostructures (MoSx@NiO) as a robust catalyst for water splitting is proposed here. NiO nanosponges are applied as cocatalyst for MoS2 in alkaline media. Both NiO and MoS2@NiO composites are prepared by a hydrothermal method. The NiO nanostructures exhibit sponge-like morphology and are completely covered by the sheet-like MoS2. The NiO and MoS2 exhibit cubic and hexagonal phases, respectively. In the MoSx@NiO composite, the HER experiment in 1 m KOH electrolyte results in a low overpotential (406 mV) to produce 10 mA cm(-2) current density. The Tafel slope for that case is 43 mV per decade, which is the lowest ever achieved for MoS2-based electrocatalyst in alkaline media. The catalyst is highly stable for at least 13 h, with no decrease in the current density. This simple, cost-effective, and environmentally friendly methodology can pave the way for exploitation of MoSx@NiO composite catalysts not only for water splitting, but also for other applications such as lithium ion batteries, and fuel cells.
机译:为了在碱性介质中进行有效的氢释放反应(HER),设计大量,非贵重,高效和稳定的电催化剂是可再生能源领域的一个热门研究课题。本文提出了一种异质结构体系,该体系由沉积在NiO纳米结构上的MoSx(MoSx @ NiO)组成,是一种强大的水分解催化剂。 NiO纳米海绵在碱性介质中用作MoS2的助催化剂。 NiO和MoS2 @ NiO复合材料都是通过水热法制备的。 NiO纳米结构呈现海绵状形态,并完全被片状MoS2覆盖。 NiO和MoS2分别显示立方相和六方相。在MoSx @ NiO复合材料中,在1 m KOH电解质中进行的HER实验导致产生超过10 mA cm(-2)电流密度的低过电势(406 mV)。在这种情况下,Tafel斜率为每十年43 mV,这是在碱性介质中基于MoS2的电催化剂实现的最低水平。催化剂在至少13小时内非常稳定,电流密度没有降低。这种简单,经济高效且环保的方法不仅可以为MoSx @ NiO复合催化剂的开发铺平道路,而且不仅可以用于水分解,还可以用于锂离子电池和燃料电池等其他应用。

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  • 来源
    《Advanced Functional Materials 》 |2019年第7期| 1807562.1-1807562.10| 共10页
  • 作者

    Ibupoto Zafar Hussain; Tahira Aneela; Tang PengYi; Liu Xianjie; Morante Joan Ramon; Fahlman Mats; Arbiol Jordi; Vagin Mikhail; Vomiero Alberto;

  • 作者单位

    Lulea Univ Technol, Dept Engn Sci & Math, Div Mat Sci, S-97187 Lulea, Sweden|Univ Sindh Jamshoro, Dr MA Kazi Inst Chem, Sindh 76080, Pakistan;

    Lulea Univ Technol, Dept Engn Sci & Math, Div Mat Sci, S-97187 Lulea, Sweden;

    CSIC, Catalan Inst Nanosci & Nanotechnol ICN2, Campus UAB, Barcelona 08193, Catalonia, Spain|BIST, Campus UAB, Barcelona 08193, Catalonia, Spain|Catalonia Inst Energy Res IREC, Jardins Dones Negre 1, Barcelona 08930, Catalonia, Spain;

    Linkoping Univ, Dept Phys Chem & Biol, S-58183 Linkoping, Sweden;

    Catalonia Inst Energy Res IREC, Jardins Dones Negre 1, Barcelona 08930, Catalonia, Spain;

    Linkoping Univ, Dept Phys Chem & Biol, S-58183 Linkoping, Sweden;

    CSIC, Catalan Inst Nanosci & Nanotechnol ICN2, Campus UAB, Barcelona 08193, Catalonia, Spain|BIST, Campus UAB, Barcelona 08193, Catalonia, Spain|ICREA, Pg Lluis Co 23, Barcelona 08010, Catalonia, Spain;

    Linkoping Univ, Dept Phys Chem & Biol, S-58183 Linkoping, Sweden;

    Lulea Univ Technol, Dept Engn Sci & Math, Div Mat Sci, S-97187 Lulea, Sweden;

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  • 关键词

    alkaline media; electrolysis; MoSx@NiO composites;

    机译:碱性介质电解MoSx @ NiO复合材料;

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