Graphene/graphene nanoribbon aerogels decorated with S-doped MoSe2 nanosheets as an efficient electrocatalyst for hydrogen evolution
Searching for an efficient and cost effective electrochemical catalyst is regarded as the key challenge for the hydrogen evolution reaction (HER). Both the active sites and electrical conductivity of the catalysts should be carefully engineered to improve their HER performance. In this work, S-doped...
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sg-ntu-dr.10356-1471702021-03-24T07:09:06Z Graphene/graphene nanoribbon aerogels decorated with S-doped MoSe2 nanosheets as an efficient electrocatalyst for hydrogen evolution Fan, Wei Wang, Dong Sun, Zhen Ling, Xing Yi Liu, Tianxi School of Physical and Mathematical Sciences Science::Chemistry Reduced Graphene Oxide Active Edge Sites Searching for an efficient and cost effective electrochemical catalyst is regarded as the key challenge for the hydrogen evolution reaction (HER). Both the active sites and electrical conductivity of the catalysts should be carefully engineered to improve their HER performance. In this work, S-doped MoSe2-decorated graphene/graphene nanoribbon aerogel (S-MoSe2@GGNR) hybrids have been fabricated as high-performance electrocatalysts for HER. The unique nanoribbon-interconnected-nanosheet structure of the graphene/graphene nanoribbon aerogel (GGNR) provides an open structure for fast ion diffusion and conductive channels for fast electron transport. GGNR as a substrate could prevent MoSe2 nanosheets from agglomeration and fully expose the active sites of MoSe2, while further S-doping can modify its electronic and crystalline structure, which can improve the activity of the catalytic sites. Consequently, the S-MoSe2@GGNR hybrids exhibit outstanding electrochemical activity with a potential of −153 mV vs. reversible hydrogen electrode to achieve a current density of 10.0 mA cm−2 and a small Tafel slope of 46 mV per decade. The good performance of the S-MoSe2@GGNR hybrids can be credited to synergistic effects between the unique hierarchical architecture of carbon aerogels and positive effect of S-doping, which makes them promising electrocatalysts for hydrogen production. The authors are grateful for the financial support from the National Natural Science Foundation of China (21704014, 51433001, and 21674019), Science and Technology Commission of Shanghai Municipality (16520722100), the Fundamental Research Funds for the Central Universities (2232017D-06), Shanghai Municipal Education Commission (17CG33), Shanghai Sailing Program (17YF1400200), and Program of Shanghai Academic Research Leader (17XD1400100). 2021-03-24T07:09:06Z 2021-03-24T07:09:06Z 2019 Journal Article Fan, W., Wang, D., Sun, Z., Ling, X. Y. & Liu, T. (2019). Graphene/graphene nanoribbon aerogels decorated with S-doped MoSe2 nanosheets as an efficient electrocatalyst for hydrogen evolution. Inorganic Chemistry Frontiers, 6(5), 1209-1216. https://dx.doi.org/10.1039/C9QI00064J 2052-1553 https://hdl.handle.net/10356/147170 10.1039/C9QI00064J 5 6 1209 1216 en Inorganic Chemistry Frontiers © 2019 The Partner Organisations. All rights reserved. |
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Science::Chemistry Reduced Graphene Oxide Active Edge Sites Fan, Wei Wang, Dong Sun, Zhen Ling, Xing Yi Liu, Tianxi Graphene/graphene nanoribbon aerogels decorated with S-doped MoSe2 nanosheets as an efficient electrocatalyst for hydrogen evolution |
| description |
Searching for an efficient and cost effective electrochemical catalyst is regarded as the key challenge for the hydrogen evolution reaction (HER). Both the active sites and electrical conductivity of the catalysts should be carefully engineered to improve their HER performance. In this work, S-doped MoSe2-decorated graphene/graphene nanoribbon aerogel (S-MoSe2@GGNR) hybrids have been fabricated as high-performance electrocatalysts for HER. The unique nanoribbon-interconnected-nanosheet structure of the graphene/graphene nanoribbon aerogel (GGNR) provides an open structure for fast ion diffusion and conductive channels for fast electron transport. GGNR as a substrate could prevent MoSe2 nanosheets from agglomeration and fully expose the active sites of MoSe2, while further S-doping can modify its electronic and crystalline structure, which can improve the activity of the catalytic sites. Consequently, the S-MoSe2@GGNR hybrids exhibit outstanding electrochemical activity with a potential of −153 mV vs. reversible hydrogen electrode to achieve a current density of 10.0 mA cm−2 and a small Tafel slope of 46 mV per decade. The good performance of the S-MoSe2@GGNR hybrids can be credited to synergistic effects between the unique hierarchical architecture of carbon aerogels and positive effect of S-doping, which makes them promising electrocatalysts for hydrogen production. |
| author2 |
School of Physical and Mathematical Sciences |
| author_facet |
School of Physical and Mathematical Sciences Fan, Wei Wang, Dong Sun, Zhen Ling, Xing Yi Liu, Tianxi |
| format |
Article |
| author |
Fan, Wei Wang, Dong Sun, Zhen Ling, Xing Yi Liu, Tianxi |
| author_sort |
Fan, Wei |
| title |
Graphene/graphene nanoribbon aerogels decorated with S-doped MoSe2 nanosheets as an efficient electrocatalyst for hydrogen evolution |
| title_short |
Graphene/graphene nanoribbon aerogels decorated with S-doped MoSe2 nanosheets as an efficient electrocatalyst for hydrogen evolution |
| title_full |
Graphene/graphene nanoribbon aerogels decorated with S-doped MoSe2 nanosheets as an efficient electrocatalyst for hydrogen evolution |
| title_fullStr |
Graphene/graphene nanoribbon aerogels decorated with S-doped MoSe2 nanosheets as an efficient electrocatalyst for hydrogen evolution |
| title_full_unstemmed |
Graphene/graphene nanoribbon aerogels decorated with S-doped MoSe2 nanosheets as an efficient electrocatalyst for hydrogen evolution |
| title_sort |
graphene/graphene nanoribbon aerogels decorated with s-doped mose2 nanosheets as an efficient electrocatalyst for hydrogen evolution |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/147170 |
| _version_ |
1695706155257430016 |