MoS2-MoO2 composite electrocatalysts by hot-injection method for hydrogen evolution reaction

Chia Ling Wu; Po Chia Huang; Sanjaya Brahma; Jow Lay Huang; Sheng Chang Wang

doi:10.1016/j.ceramint.2017.05.220

MoS₂-MoO₂ composite electrocatalysts by hot-injection method for hydrogen evolution reaction

Chia Ling Wu, Po Chia Huang, Sanjaya Brahma, Jow Lay Huang, Sheng Chang Wang

研究成果: Article › 同行評審

18 引文斯高帕斯（Scopus）

摘要

Hydrogen has been considered as one of the most promising renewable energy for production and storage. Here, we report an efficient method to synthesize MoS₂-MoO₂ composite by hot-injection method using MoO₃ and S powder as precursors with oleic acid (OA) and oleylamine (OLA) as solvent, respectively. The X-ray diffraction shows the presence of the peaks from both MoS₂ as well as MoO₂. With increasing reaction temperature and time, oleic acid reorganizes the octahedral units of MoO₃ and gradually turn into low valence of Mo. After injecting S-precursor, OLA first reduces Mo-precursor to MoO₂ as core, and then S atoms replace O atoms to form MoS₂ as shell, eventually forming MoS₂-MoO₂ core-shell structure. MoO₂ with few-layer MoS₂ can be observed by transmission electron microscope. A Tafel slope of 129 mV/dec is obtained for MoS₂-MoO₂ composite, which is much better than MoS₂ and MoO₂. The enhanced HER performance is attributed to the abundance active sites from MoS₂ and the improved charge transfer direction by MoO₂.

原文	English
頁（從 - 到）	S621-S627
期刊	Ceramics International
卷	43
DOIs	https://doi.org/10.1016/j.ceramint.2017.05.220
出版狀態	Published - 2017 8月

All Science Journal Classification (ASJC) codes

電子、光磁材料
陶瓷和複合材料
製程化學與技術
表面、塗料和薄膜
材料化學

UN SDG

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10.1016/j.ceramint.2017.05.220

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title = "MoS2-MoO2 composite electrocatalysts by hot-injection method for hydrogen evolution reaction",

abstract = "Hydrogen has been considered as one of the most promising renewable energy for production and storage. Here, we report an efficient method to synthesize MoS2-MoO2 composite by hot-injection method using MoO3 and S powder as precursors with oleic acid (OA) and oleylamine (OLA) as solvent, respectively. The X-ray diffraction shows the presence of the peaks from both MoS2 as well as MoO2. With increasing reaction temperature and time, oleic acid reorganizes the octahedral units of MoO3 and gradually turn into low valence of Mo. After injecting S-precursor, OLA first reduces Mo-precursor to MoO2 as core, and then S atoms replace O atoms to form MoS2 as shell, eventually forming MoS2-MoO2 core-shell structure. MoO2 with few-layer MoS2 can be observed by transmission electron microscope. A Tafel slope of 129 mV/dec is obtained for MoS2-MoO2 composite, which is much better than MoS2 and MoO2. The enhanced HER performance is attributed to the abundance active sites from MoS2 and the improved charge transfer direction by MoO2.",

author = "Wu, {Chia Ling} and Huang, {Po Chia} and Sanjaya Brahma and Huang, {Jow Lay} and Wang, {Sheng Chang}",

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year = "2017",

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T1 - MoS2-MoO2 composite electrocatalysts by hot-injection method for hydrogen evolution reaction

AU - Wu, Chia Ling

AU - Huang, Po Chia

AU - Brahma, Sanjaya

AU - Huang, Jow Lay

AU - Wang, Sheng Chang

PY - 2017/8

Y1 - 2017/8

N2 - Hydrogen has been considered as one of the most promising renewable energy for production and storage. Here, we report an efficient method to synthesize MoS2-MoO2 composite by hot-injection method using MoO3 and S powder as precursors with oleic acid (OA) and oleylamine (OLA) as solvent, respectively. The X-ray diffraction shows the presence of the peaks from both MoS2 as well as MoO2. With increasing reaction temperature and time, oleic acid reorganizes the octahedral units of MoO3 and gradually turn into low valence of Mo. After injecting S-precursor, OLA first reduces Mo-precursor to MoO2 as core, and then S atoms replace O atoms to form MoS2 as shell, eventually forming MoS2-MoO2 core-shell structure. MoO2 with few-layer MoS2 can be observed by transmission electron microscope. A Tafel slope of 129 mV/dec is obtained for MoS2-MoO2 composite, which is much better than MoS2 and MoO2. The enhanced HER performance is attributed to the abundance active sites from MoS2 and the improved charge transfer direction by MoO2.

AB - Hydrogen has been considered as one of the most promising renewable energy for production and storage. Here, we report an efficient method to synthesize MoS2-MoO2 composite by hot-injection method using MoO3 and S powder as precursors with oleic acid (OA) and oleylamine (OLA) as solvent, respectively. The X-ray diffraction shows the presence of the peaks from both MoS2 as well as MoO2. With increasing reaction temperature and time, oleic acid reorganizes the octahedral units of MoO3 and gradually turn into low valence of Mo. After injecting S-precursor, OLA first reduces Mo-precursor to MoO2 as core, and then S atoms replace O atoms to form MoS2 as shell, eventually forming MoS2-MoO2 core-shell structure. MoO2 with few-layer MoS2 can be observed by transmission electron microscope. A Tafel slope of 129 mV/dec is obtained for MoS2-MoO2 composite, which is much better than MoS2 and MoO2. The enhanced HER performance is attributed to the abundance active sites from MoS2 and the improved charge transfer direction by MoO2.

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