A host-guest approach to fabricate metallic cobalt nanoparticles embedded in silk-derived N-doped carbon fibers for efficient hydrogen evolution
Hydrogen evolution reaction (HER) plays a key role in generating clean and renewable energy. As the most effective HER electrocatalysts, Pt group catalysts suffer from severe problems such as high price and scarcity. It is highly desirable to design and synthesize sustainable HER electrocatalysts to...
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KeAi Communications Co., Ltd.
2017-04-01
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| Series: | Green Energy & Environment |
| Online Access: | http://www.sciencedirect.com/science/article/pii/S2468025716301182 |
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doaj-9af4d85ea8de41948de70f75a9c8798d2021-02-02T05:08:38ZengKeAi Communications Co., Ltd.Green Energy & Environment2468-02572017-04-0122151159A host-guest approach to fabricate metallic cobalt nanoparticles embedded in silk-derived N-doped carbon fibers for efficient hydrogen evolutionFenglei Lyu0Qingfa Wang1Han Zhu2Mingliang Du3Li Wang4Xiangwen Zhang5Key Laboratory for Green Chemical Technology of the Ministry of Education, School of Chemical Engineering and Technology, Tianjin University, 135 Yaguan Road, Tianjin 300072, ChinaKey Laboratory for Green Chemical Technology of the Ministry of Education, School of Chemical Engineering and Technology, Tianjin University, 135 Yaguan Road, Tianjin 300072, China; Corresponding author.Department of Materials Engineering, College of Materials and Textiles, Zhejiang Sci-Tech University, Hangzhou 310018, China; Corresponding author.Department of Materials Engineering, College of Materials and Textiles, Zhejiang Sci-Tech University, Hangzhou 310018, ChinaKey Laboratory for Green Chemical Technology of the Ministry of Education, School of Chemical Engineering and Technology, Tianjin University, 135 Yaguan Road, Tianjin 300072, ChinaKey Laboratory for Green Chemical Technology of the Ministry of Education, School of Chemical Engineering and Technology, Tianjin University, 135 Yaguan Road, Tianjin 300072, ChinaHydrogen evolution reaction (HER) plays a key role in generating clean and renewable energy. As the most effective HER electrocatalysts, Pt group catalysts suffer from severe problems such as high price and scarcity. It is highly desirable to design and synthesize sustainable HER electrocatalysts to replace the Pt group catalysts. Due to their low cost, high abundance and high activities, cobalt-incorporated N-doped nanocarbon hybrids are promising candidate electrocatalysts for HER. In this report, we demonstrated a robust and eco-friendly host-guest approach to fabricate metallic cobalt nanoparticles embedded in N-doped carbon fibers derived from natural silk fibers. Benefiting from the one-dimensional nanostructure, the well-dispersed metallic cobalt nanoparticles and the N-doped thin graphitized carbon layer coating, the best Co-based electrocatalyst manifests low overpotential (61 mV@10 mA/cm2) HER activity that is comparable with commercial 20% Pt/C, and good stability in acid. Our findings provide a novel and unique route to explore high-performance noble-metal-free HER electrocatalysts. Keywords: Silk, Carbon fibers, Cobalt nanoparticles, Hydrogen evolution, Nitrogen dopinghttp://www.sciencedirect.com/science/article/pii/S2468025716301182 |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Fenglei Lyu Qingfa Wang Han Zhu Mingliang Du Li Wang Xiangwen Zhang |
| spellingShingle |
Fenglei Lyu Qingfa Wang Han Zhu Mingliang Du Li Wang Xiangwen Zhang A host-guest approach to fabricate metallic cobalt nanoparticles embedded in silk-derived N-doped carbon fibers for efficient hydrogen evolution Green Energy & Environment |
| author_facet |
Fenglei Lyu Qingfa Wang Han Zhu Mingliang Du Li Wang Xiangwen Zhang |
| author_sort |
Fenglei Lyu |
| title |
A host-guest approach to fabricate metallic cobalt nanoparticles embedded in silk-derived N-doped carbon fibers for efficient hydrogen evolution |
| title_short |
A host-guest approach to fabricate metallic cobalt nanoparticles embedded in silk-derived N-doped carbon fibers for efficient hydrogen evolution |
| title_full |
A host-guest approach to fabricate metallic cobalt nanoparticles embedded in silk-derived N-doped carbon fibers for efficient hydrogen evolution |
| title_fullStr |
A host-guest approach to fabricate metallic cobalt nanoparticles embedded in silk-derived N-doped carbon fibers for efficient hydrogen evolution |
| title_full_unstemmed |
A host-guest approach to fabricate metallic cobalt nanoparticles embedded in silk-derived N-doped carbon fibers for efficient hydrogen evolution |
| title_sort |
host-guest approach to fabricate metallic cobalt nanoparticles embedded in silk-derived n-doped carbon fibers for efficient hydrogen evolution |
| publisher |
KeAi Communications Co., Ltd. |
| series |
Green Energy & Environment |
| issn |
2468-0257 |
| publishDate |
2017-04-01 |
| description |
Hydrogen evolution reaction (HER) plays a key role in generating clean and renewable energy. As the most effective HER electrocatalysts, Pt group catalysts suffer from severe problems such as high price and scarcity. It is highly desirable to design and synthesize sustainable HER electrocatalysts to replace the Pt group catalysts. Due to their low cost, high abundance and high activities, cobalt-incorporated N-doped nanocarbon hybrids are promising candidate electrocatalysts for HER. In this report, we demonstrated a robust and eco-friendly host-guest approach to fabricate metallic cobalt nanoparticles embedded in N-doped carbon fibers derived from natural silk fibers. Benefiting from the one-dimensional nanostructure, the well-dispersed metallic cobalt nanoparticles and the N-doped thin graphitized carbon layer coating, the best Co-based electrocatalyst manifests low overpotential (61 mV@10 mA/cm2) HER activity that is comparable with commercial 20% Pt/C, and good stability in acid. Our findings provide a novel and unique route to explore high-performance noble-metal-free HER electrocatalysts. Keywords: Silk, Carbon fibers, Cobalt nanoparticles, Hydrogen evolution, Nitrogen doping |
| url |
http://www.sciencedirect.com/science/article/pii/S2468025716301182 |
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