Ordered distributed nickel sulfide nanoparticles across graphite nanosheets for efficient oxygen evolution reaction electrocatalyst
Low-cost and earth-abundant nickel chalcogenides with versatilities in electrocatalysis, conversion and storage of energy are hindered in practical application due to the low electrical conductivity and small specific surface area. In the present work, we report a simple preparation of 2D nanocompos...
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sg-ntu-dr.10356-1511432021-06-24T10:20:42Z Ordered distributed nickel sulfide nanoparticles across graphite nanosheets for efficient oxygen evolution reaction electrocatalyst Ma, Mingbo Yang, Guang Wang, Hongjie Lu, Yu Zhang, Bowei Cao, Xun Peng, Dongdong Du, Xianfeng Liu, Yunhong Huang, Yizhong School of Materials Science and Engineering Engineering::Materials Nickel Sulfide Nanosheets Metal-organic Framework Low-cost and earth-abundant nickel chalcogenides with versatilities in electrocatalysis, conversion and storage of energy are hindered in practical application due to the low electrical conductivity and small specific surface area. In the present work, we report a simple preparation of 2D nanocomposites of NiSx (5 nm) uniformly embedded in several layered graphite (NiSx@graphite) through the sulfidation of nickel naphtalenedicarboxylic acid framework nanosheets (∼9 nm). The obtained NiSx@graphite nanosheet composites are used for oxygen evolution reaction (OER) catalysis. Electrochemical studies reveal that their OER activities under strongly alkaline conditions are ranked in the order of Ni9S8@graphite > NiS@graphite > NiS2@graphite. The outstanding OER performance offered by Ni9S8@graphite owes to the synergistic effects of large specific surface area and the special structure between nickel sulfide and graphite layer, and the intrinsic large TOFs and the optimal adsorption energy of Ni9S8. Furthermore, Ni9S8@graphite as an anode material used for lithium ion batteries (LIBs) also shows a high specific capacity with competitive rate performance. Such excellent performance and low price render nickel chalcogenides a promising candidate for the future OER catalyst and LIBs application. Ministry of Education (MOE) This work was financially supported by the China Scholarship Council (201706280166), the National Natural Science Foundation of China (grant numbers 51472198, 51772237, 51777152), Singapore MOE Tier 1 (grant number M4011959), the Fundamental Research Funds for the Central Universities (grant number XJJ2016020), the Scientific Research Foundation for the Returned Overseas Chinese Scholars. 2021-06-24T10:20:42Z 2021-06-24T10:20:42Z 2018 Journal Article Ma, M., Yang, G., Wang, H., Lu, Y., Zhang, B., Cao, X., Peng, D., Du, X., Liu, Y. & Huang, Y. (2018). Ordered distributed nickel sulfide nanoparticles across graphite nanosheets for efficient oxygen evolution reaction electrocatalyst. International Journal of Hydrogen Energy, 44(3), 1544-1554. https://dx.doi.org/10.1016/j.ijhydene.2018.11.176 0360-3199 0000-0002-6034-381X https://hdl.handle.net/10356/151143 10.1016/j.ijhydene.2018.11.176 2-s2.0-85058216076 3 44 1544 1554 en M4011959 International Journal of Hydrogen Energy © 2018 Hydrogen Energy Publications LLC. Published by Elsevier Ltd. All rights reserved. |
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Engineering::Materials Nickel Sulfide Nanosheets Metal-organic Framework Ma, Mingbo Yang, Guang Wang, Hongjie Lu, Yu Zhang, Bowei Cao, Xun Peng, Dongdong Du, Xianfeng Liu, Yunhong Huang, Yizhong Ordered distributed nickel sulfide nanoparticles across graphite nanosheets for efficient oxygen evolution reaction electrocatalyst |
| description |
Low-cost and earth-abundant nickel chalcogenides with versatilities in electrocatalysis, conversion and storage of energy are hindered in practical application due to the low electrical conductivity and small specific surface area. In the present work, we report a simple preparation of 2D nanocomposites of NiSx (5 nm) uniformly embedded in several layered graphite (NiSx@graphite) through the sulfidation of nickel naphtalenedicarboxylic acid framework nanosheets (∼9 nm). The obtained NiSx@graphite nanosheet composites are used for oxygen evolution reaction (OER) catalysis. Electrochemical studies reveal that their OER activities under strongly alkaline conditions are ranked in the order of Ni9S8@graphite > NiS@graphite > NiS2@graphite. The outstanding OER performance offered by Ni9S8@graphite owes to the synergistic effects of large specific surface area and the special structure between nickel sulfide and graphite layer, and the intrinsic large TOFs and the optimal adsorption energy of Ni9S8. Furthermore, Ni9S8@graphite as an anode material used for lithium ion batteries (LIBs) also shows a high specific capacity with competitive rate performance. Such excellent performance and low price render nickel chalcogenides a promising candidate for the future OER catalyst and LIBs application. |
| author2 |
School of Materials Science and Engineering |
| author_facet |
School of Materials Science and Engineering Ma, Mingbo Yang, Guang Wang, Hongjie Lu, Yu Zhang, Bowei Cao, Xun Peng, Dongdong Du, Xianfeng Liu, Yunhong Huang, Yizhong |
| format |
Article |
| author |
Ma, Mingbo Yang, Guang Wang, Hongjie Lu, Yu Zhang, Bowei Cao, Xun Peng, Dongdong Du, Xianfeng Liu, Yunhong Huang, Yizhong |
| author_sort |
Ma, Mingbo |
| title |
Ordered distributed nickel sulfide nanoparticles across graphite nanosheets for efficient oxygen evolution reaction electrocatalyst |
| title_short |
Ordered distributed nickel sulfide nanoparticles across graphite nanosheets for efficient oxygen evolution reaction electrocatalyst |
| title_full |
Ordered distributed nickel sulfide nanoparticles across graphite nanosheets for efficient oxygen evolution reaction electrocatalyst |
| title_fullStr |
Ordered distributed nickel sulfide nanoparticles across graphite nanosheets for efficient oxygen evolution reaction electrocatalyst |
| title_full_unstemmed |
Ordered distributed nickel sulfide nanoparticles across graphite nanosheets for efficient oxygen evolution reaction electrocatalyst |
| title_sort |
ordered distributed nickel sulfide nanoparticles across graphite nanosheets for efficient oxygen evolution reaction electrocatalyst |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/151143 |
| _version_ |
1703971188151156736 |