2023
DOI: 10.1002/smll.202207177
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In Situ Porousized MoS2 Nano Islands Enhance HER/OER Bifunctional Electrocatalysis

Abstract: new energy sources, such as hydrogen, has attracted much attention in recent years. [1][2][3] Electrochemical water splitting technology is a highly efficient and promising technology for green hydrogen production. The entire water-splitting process consists of a cathodic hydrogen evolution reaction (HER) and an anodic oxygen evolution reaction (OER). [4,5] The electrocatalyst is a key part in the process of driving the reaction and reducing power consumption. Conventional electrocatalysts are mainly based on … Show more

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Cited by 84 publications
(32 citation statements)
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“…On the other hand, transition metal sulfide (TMS) electrocatalysts have attracted much attention owing to their low cost and favorable HER catalytic activity. Among them, MoS 2 is regarded to be one of the prospective electrocatalysts for substituting Pt-based electrocatalysts owing to its abundant active sites, earth abundance, low price, and good mechanical properties. Particularly, MoS 2 electrocatalysts exhibit impressive electrocatalytic activity only in acid or neutral solutions, whereas they exhibit relatively low activity and instability in alkaline solutions, constraining application in overall water splitting. Recently, a variety of MoS 2 -based heterostructures catalysts have been developed, displaying extraordinary bifunctional catalytic performance for overall water splitting. Constructing highly efficient MoS 2 -based heterostructure electrocatalysts is a significant innovation, as highlighted in recent reports, to enhance OER, HER, and overall water splitting performance.…”
Section: Introductionmentioning
confidence: 99%
“…On the other hand, transition metal sulfide (TMS) electrocatalysts have attracted much attention owing to their low cost and favorable HER catalytic activity. Among them, MoS 2 is regarded to be one of the prospective electrocatalysts for substituting Pt-based electrocatalysts owing to its abundant active sites, earth abundance, low price, and good mechanical properties. Particularly, MoS 2 electrocatalysts exhibit impressive electrocatalytic activity only in acid or neutral solutions, whereas they exhibit relatively low activity and instability in alkaline solutions, constraining application in overall water splitting. Recently, a variety of MoS 2 -based heterostructures catalysts have been developed, displaying extraordinary bifunctional catalytic performance for overall water splitting. Constructing highly efficient MoS 2 -based heterostructure electrocatalysts is a significant innovation, as highlighted in recent reports, to enhance OER, HER, and overall water splitting performance.…”
Section: Introductionmentioning
confidence: 99%
“…Therefore, there is an urgent need to find out how the activity of the base surface can avoid aggregation and enhance conductivity. There are some ways to solve the above problems, including nanostructure design, foreign element doping, , phase engineering, and heterojunction interface structure. For example, the multidimensional core-shell Ni/NiCoP nano heterojunction composed of Zhang’s project is used as two electrodes for total water splitting, only 1.57 V can reach a current density of 10 mA•cm –2 , and quantum dot (QD) composite materials, such as Rhodium/silicon QD/carbon QD composites combined by Wang’s subject, exhibit Pt-like HER performance (26 mV•dec –1 low Tafel slope and long-term stability). However, 2D materials and QDs composite materials still have the following shortcomings.…”
Section: Introductionmentioning
confidence: 99%
“…26,28,29 MoS 2 has been found to have metal sites at its basal panes that are inert towards hydrogen/oxygen reactive species, resulting in poor catalytic performance. 30,31 It is therefore highly desirable to redesign and reconstruct MoS 2 basal plane in order to demonstrate efficient OER kinetics through efficient adsorption/desorption. [32][33][34] In light of these challenges regarding the development of an efficient MoS 2 electrocatalyst, we propose the use of palladium (Pd) nanoparticles incorporation into MoS 2 during the UV light environment for the rst time in the literature.…”
Section: Introductionmentioning
confidence: 99%