Control of the morphologies of molybdenum disulfide for hydrogen evolution reaction

Nguyen, Tuan Van; Tekalgne, Mahider; Nguyen, Thang Phan; Wang, Wenmeng; Hong, Sung Hwan; Cho, Jin Hyuk; Le, Quyet Van; Jang, Ho Won; Ahn, Sang Hyun; Kim, Soo Young

doi:10.1002/er.7896

Cited by 16 publications

(8 citation statements)

References 61 publications

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“…3g). 76 These results suggest that structural differences in pure materials alone can lead to more promising electrocatalytic activities.…”

Section: Demonstration and Practical Application Of Catalytic 2d Mate...mentioning

confidence: 98%

Two-dimensional materials as catalysts, interfaces, and electrodes for an efficient hydrogen evolution reaction

Cho,

Kang

2024

Nanoscale

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“…3g). 76 These results suggest that structural differences in pure materials alone can lead to more promising electrocatalytic activities.…”

Section: Demonstration and Practical Application Of Catalytic 2d Mate...mentioning

confidence: 98%

Two-dimensional materials as catalysts, interfaces, and electrodes for an efficient hydrogen evolution reaction

Cho,

Kang

2024

Nanoscale

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“…(A, B) Fitted high‐resolution peaks of MoS 2 and (E) XRD patterns of MoS 2 . Reproduced with permission from Van et al 96 Copyright: 2022 John Wiley and Sons. (C, D) Fitted high‐resolution peaks of WS 2 and (E) XRD patterns of WS 2 .…”

Section: Ws2 and Mos2: Structure And Propertiesmentioning

confidence: 99%

Electrocatalysts based on MoS₂ and WS₂ for hydrogen evolution reaction: An overview

et al. 2023

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Recently, hydrogen energy has been significantly investigated by numerous technologies. To date, noble platinum group metals have often been employed to fabricate working electrodes for hydrogen evolution reaction (HER). Therefore, the demand of highly active HER catalysts based on effective and lower‐cost materials is becoming more and more critical. Transition metal dichalcogenide (TMD) materials could be one of the most suitable materials for these requirements because they possess numerous unique mechanical, electronic, and chemical characteristics that are greatly beneficial for HER processes. Among many TMD materials, tungsten disulfide (WS2) and molybdenum disulfide (MoS2) are the most well‐known TMD materials which have been intensively studied for different applications, including HER, batteries, and supercapacitors. In this review, we tried to cover the HER mechanism of catalysts and their parameters. Besides that, the structures, properties, preparation, and HER performance of catalyst materials based on WS2 and MoS2 are comprehensively discussed. After that, the challenges and future trends of catalysts based on WS2 and MoS2 for HER are also considered.

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“…With the advent of cutting-edge technologies, hydrogen is one of the most prominent candidates as an ecosystemfriendly and reusable energy source [14][15][16][17][18][19][20][21]. Different materials have been investigated to enhance reaction performance and produce hydrogen gas [22][23][24][25][26][27][28]. Thus far, noble metals such as Pt group metals have demonstrated higher active electrocatalyst performances for the hydrogen evolution reaction (HER) than other materials [29][30][31][32].…”

Section: Introductionmentioning

confidence: 99%

Facile Synthesis of WS2/WO3 Materials in a Batch Reactor for the Hydrogen Evolution Reaction

Nguyen,

Huynh,

et al. 2024

International Journal of Energy Research

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In this study, a new and facile process was developed for the preparation of composite catalysts based on tungsten oxide (WO3) by batch reactor routes. The structures, morphologies, compositions, and characteristics of synthesized materials were investigated and confirmed. Using batch reactor processes, WO3 nanorods (WO3 NR), heterostructures of WS2/WO3 nanobricks (WS2/WO3 NB), and WS2/WO3 nanorods (WS2/WO3 NR) were successfully prepared. The prepared materials were then employed for hydrogen evolution reaction (HER) to investigate their catalytic performance. The results indicated that the electrocatalytic activities of WS2/WO3 NR are significantly improved compared to those of WO3 NR and WS2/WO3 NB. This improvement could be attributed to the formation of heterostructure between WS2 and WO3 elements in highly uniform materials, which could create the synergistic effect and further improve the catalytic activities of the catalyst. The data shows that the Tafel slope of WS2/WO3 NR (82.7 mV dec−1) is significantly lower than that of WO3 NR (112.5 mV dec−1) and WS2/WO3 NB (195.5 mV dec−1). Furthermore, the resistance of WS2/WO3 NR (397.7 Ω) is markedly decreased compared to those of WO3 NR (1816 Ω) and WS2/WO3 NB (3597 Ω). The results indicate that WS2/WO3 NR could be a great catalyst for electrochemical applications.

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Control of the morphologies of molybdenum disulfide for hydrogen evolution reaction

Cited by 16 publications

References 61 publications

Two-dimensional materials as catalysts, interfaces, and electrodes for an efficient hydrogen evolution reaction

Two-dimensional materials as catalysts, interfaces, and electrodes for an efficient hydrogen evolution reaction

Electrocatalysts based on MoS₂ and WS₂ for hydrogen evolution reaction: An overview

Facile Synthesis of WS2/WO3 Materials in a Batch Reactor for the Hydrogen Evolution Reaction

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Control of the morphologies of molybdenum disulfide for hydrogen evolution reaction

Cited by 16 publications

References 61 publications

Two-dimensional materials as catalysts, interfaces, and electrodes for an efficient hydrogen evolution reaction

Two-dimensional materials as catalysts, interfaces, and electrodes for an efficient hydrogen evolution reaction

Electrocatalysts based on MoS2 and WS2 for hydrogen evolution reaction: An overview

Facile Synthesis of WS2/WO3 Materials in a Batch Reactor for the Hydrogen Evolution Reaction

Contact Info

Product

Resources

About

Electrocatalysts based on MoS₂ and WS₂ for hydrogen evolution reaction: An overview