Engineering the Electronic Structure of MoS2 Nanorods by N and Mn Dopants for Ultra-Efficient Hydrogen Production
10.1021/acscatal.8b00783
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AMER CHEMICAL SOC
2020
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sg-nus-scholar.10635-1692112024-04-24T09:58:01Z Engineering the Electronic Structure of MoS2 Nanorods by N and Mn Dopants for Ultra-Efficient Hydrogen Production Tao Sun Jun Wang Xiao Chi Yunxiang Lin Zhongxin Chen Xiang Ling Chuntian Qiu Yangsen Xu Li Song |Wei Chen Chenliang Su CENTRE FOR ADVANCED 2D MATERIALS CHEMISTRY Science & Technology Physical Sciences Chemistry, Physical Chemistry hydrogen evolution reaction N and Mn codoping molybdenum disulfide electronic structures H* adsorption RAY-ABSORPTION SPECTROSCOPY OXYGEN REDUCTION REACTION ACTIVE EDGE SITES EVOLUTION REACTION MOLYBDENUM SULFIDES ELECTROCATALYSTS PERFORMANCE NANOSHEETS CATALYSTS NITROGEN 10.1021/acscatal.8b00783 ACS CATALYSIS 8 8 7585-7592 2020-06-04T03:54:24Z 2020-06-04T03:54:24Z 2018-08-01 2020-05-29T08:47:01Z Article Tao Sun, Jun Wang, Xiao Chi, Yunxiang Lin, Zhongxin Chen, Xiang Ling, Chuntian Qiu, Yangsen Xu, Li Song |Wei Chen, Chenliang Su (2018-08-01). Engineering the Electronic Structure of MoS2 Nanorods by N and Mn Dopants for Ultra-Efficient Hydrogen Production. ACS CATALYSIS 8 (8) : 7585-7592. ScholarBank@NUS Repository. https://doi.org/10.1021/acscatal.8b00783 2155-5435 https://scholarbank.nus.edu.sg/handle/10635/169211 en AMER CHEMICAL SOC Elements |
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Science & Technology Physical Sciences Chemistry, Physical Chemistry hydrogen evolution reaction N and Mn codoping molybdenum disulfide electronic structures H* adsorption RAY-ABSORPTION SPECTROSCOPY OXYGEN REDUCTION REACTION ACTIVE EDGE SITES EVOLUTION REACTION MOLYBDENUM SULFIDES ELECTROCATALYSTS PERFORMANCE NANOSHEETS CATALYSTS NITROGEN |
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Science & Technology Physical Sciences Chemistry, Physical Chemistry hydrogen evolution reaction N and Mn codoping molybdenum disulfide electronic structures H* adsorption RAY-ABSORPTION SPECTROSCOPY OXYGEN REDUCTION REACTION ACTIVE EDGE SITES EVOLUTION REACTION MOLYBDENUM SULFIDES ELECTROCATALYSTS PERFORMANCE NANOSHEETS CATALYSTS NITROGEN Tao Sun Jun Wang Xiao Chi Yunxiang Lin Zhongxin Chen Xiang Ling Chuntian Qiu Yangsen Xu Li Song |Wei Chen Chenliang Su Engineering the Electronic Structure of MoS2 Nanorods by N and Mn Dopants for Ultra-Efficient Hydrogen Production |
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10.1021/acscatal.8b00783 |
author2 |
CENTRE FOR ADVANCED 2D MATERIALS |
author_facet |
CENTRE FOR ADVANCED 2D MATERIALS Tao Sun Jun Wang Xiao Chi Yunxiang Lin Zhongxin Chen Xiang Ling Chuntian Qiu Yangsen Xu Li Song |Wei Chen Chenliang Su |
format |
Article |
author |
Tao Sun Jun Wang Xiao Chi Yunxiang Lin Zhongxin Chen Xiang Ling Chuntian Qiu Yangsen Xu Li Song |Wei Chen Chenliang Su |
author_sort |
Tao Sun |
title |
Engineering the Electronic Structure of MoS2 Nanorods by N and Mn Dopants for Ultra-Efficient Hydrogen Production |
title_short |
Engineering the Electronic Structure of MoS2 Nanorods by N and Mn Dopants for Ultra-Efficient Hydrogen Production |
title_full |
Engineering the Electronic Structure of MoS2 Nanorods by N and Mn Dopants for Ultra-Efficient Hydrogen Production |
title_fullStr |
Engineering the Electronic Structure of MoS2 Nanorods by N and Mn Dopants for Ultra-Efficient Hydrogen Production |
title_full_unstemmed |
Engineering the Electronic Structure of MoS2 Nanorods by N and Mn Dopants for Ultra-Efficient Hydrogen Production |
title_sort |
engineering the electronic structure of mos2 nanorods by n and mn dopants for ultra-efficient hydrogen production |
publisher |
AMER CHEMICAL SOC |
publishDate |
2020 |
url |
https://scholarbank.nus.edu.sg/handle/10635/169211 |
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1800914037913944064 |