Recent Advancement in MoS2 for Hydrogen Evolution Reactions

Kwadwo Mensah-Darkwa; Rita N. Tabi; Maxwell Owusu; Tenzin Ingsel; Pawan K. Kahol; Ram K. Gupta

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Recent Advancement in MoS2 for Hydrogen Evolution Reactions

机译：用于氢气进化反应的MOS2最新进展

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The economic growth of any country depends on certain factors of which energy is a part and even prominent. The global economy has depended heavily on fossil fuels as the main source of reliable energy for so many decades. Their adverse long-term impact on society has led to a substantial increase in research activities both in industry and academia. Most of the research has been dominated by the development of green energy technologies and the expansion of such technologies in order to meet increasing future demands of energy. Prominent among the research drive is the development of fuel cells, whose driving force comes from hydrogen. This is because hydrogen is economical considering its relative abundance, low cost, yet high activity in production. Materials such as Pt, C, Fe, MoS2 have gained popularity in the production of hydrogen for use in fuel cell devices. The high efficiency of MoS2, amorphous or crystalline, in hydrogen evolution reactions (HER) depends on a suitable architecture that increases the exposure of its edge sites. Such architecture could be determined by the design of catalysts in terms of proportions of molybdenum and dopant ions, the composite structure between MoS2 and electrically conductive materials, synthesis temperature and the synthesis method. Therefore, a review is made on recent achievements for different nanoarchitectures of MoS2 as well as its composite structures for use as electro-catalysts in HER performance and future prospects.

机译：任何国家的经济增长都取决于哪些能源是一部分甚至突出的因素。全球经济依赖于化石燃料作为可靠能源的主要来源，这是多十年。它们对社会的不利影响的影响导致工业和学术界的研究活动大幅增加。大多数研究是由绿色能源技术的发展和这些技术的扩展，以满足不断增加的能量需求。研究驱动中的突出是燃料电池的发展，其驱动力来自氢气。这是因为氢是经济的考虑到其相对丰富，低成本，在生产中的高活动。诸如Pt，C，Fe，MOS2的材料在生产氢气的生产中具有普及，以用于燃料电池装置。氢进化反应（她）中的MOS2，无定形或结晶的高效率取决于增加其边缘位点暴露的合适架构。在钼和掺杂剂离子的比例方面，可以通过催化剂的设计来确定这种结构，MOS2和导电材料之间的复合结构，合成温度和合成方法。因此，对MOS2的不同纳米建筑的最近成果进行了综述，以及其在性能和未来前景中用作电催化剂的复合结构。

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来源
《Current Graphene Science》 |2021年第1期|共15页
作者
Kwadwo Mensah-Darkwa; Rita N. Tabi; Maxwell Owusu; Tenzin Ingsel; Pawan K. Kahol; Ram K. Gupta;
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中图分类晶体学;
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Electro-catalysts in HER performancehydrogen evolution reactionMoS2nano-architecture of MoS2transition metal chalcogenideswater splitting.;

机译：电气催化剂在她的氢化氢气中的反应MOS2Transition金属硫胺基化合物水分分裂的反应摩洛烃。;

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1. Mo-Doped Zn, Co Zeolitic Imidazolate Framework-Derived Co9S8 Quantum Dots and MoS2 Embedded in Three-Dimensional Nitrogen-Doped Carbon Nanoflake Arrays as an Efficient Trifunctional Electrocatalysts for the Oxygen Reduction Reaction, Oxygen Evolution Reaction, and Hydrogen Evolution Reaction [J] . Zhang Wenming, Zhao Xinyan, Zhao Youwei, ACS applied materials & interfaces . 2020,第9期

机译：Mo掺杂的Zn，Co沸石咪唑酯骨架 - 衍生的CO9S8量子点和MOS2嵌入三维氮掺杂碳纳米瓶阵列中，作为用于氧还原反应，氧气进化反应和氢气进化反应的有效三官能电催化剂
2. Metal-organic framework derived Co3O4/MoS2 heterostructure for efficient bifunctional electrocatalysts for oxygen evolution reaction and hydrogen evolution reaction [J] . Muthurasu Alagan, Maruthapandian Viruthasalam, Kim Hak Yong Applied Catalysis, B. Environmental: An International Journal Devoted to Catalytic Science and Its Applications . 2019,第期

机译：金属 - 有机骨架衍生的CO3O4 / MOS2异质结构，用于高效双牙性电催化剂用于氧进化反应和氢进化反应
3. Strongly enhanced visible light photoelectrocatalytic hydrogen evolution reaction in an n-doped MoS2 /TiO2(B) heterojunction by selective decoration of platinum nanoparticles at the MoS2 edge sites [J] . Paul Kamal Kumar, Sreekanth N., Biroju Ravi K., Journal of Materials Chemistry, A. Materials for energy and sustainability . 2018,第45期

机译：通过在MOS2边缘位点的铂纳米粒子的选择性装饰，在N掺杂MOS2 / TiO2（B）异质结中强大增强的可见光光电催化氢气催化反应
4. Fabrication of MoS2 and p-type Silicon Heterojunction for Photocatalytic Hydrogen Evolution Reaction in Acidic Medium [C] . Bhagyashri Todankar, Ajinkya Ranade, Pradeep Desai, å¿œç”¨ç‰©ç†å¦ä¼šå¦è¡“è¬›æ¼”ä¼š;å¿œç”¨ç‰©ç†å¦ä¼š . 2020

机译：用于酸性介质中的光催化氢气进化反应的MOS2和P型硅杂函数的制造
5. Friction Induced Structural Transformation of Bulk Nanostructured MoS2 for Hydrogen Evolution Reaction [D] . Limsakoune, Vipawee. 2018

机译：摩擦诱导的散装纳米结构MOS2用于氢化反应的结构转变
6. Growth of Multiorientated Polycrystalline MoS2 Using Plasma-Enhanced Chemical Vapor Deposition for Efficient Hydrogen Evolution Reactions [O] . Na Liu, Jeonghun Kim, Jeonghyeon Oh, 2020

机译：多过多层多晶MOS2使用等离子体增强的化学气相沉积的生长以获得有效的氢气进化反应
7. Hydrogen Evolution Reaction: Ganoderma-Like MoS2 /NiS2 with Single Platinum Atoms Doping as an Efficient and Stable Hydrogen Evolution Reaction Catalyst (Small 27/2018) [O] . Yongxin Guan, Yangyang Feng, Jing Wan, 2018

机译：氢进化反应：Ganoderma样MOS2 / NIS2，单铂原子掺杂为有效且稳定的氢进化反应催化剂（小27/2018）

Recent Advancement in MoS2 for Hydrogen Evolution Reactions

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