Waste bones derived nitrogen-doped carbon with high micropore ratio towards supercapacitor applications
Fabrication of high-performance electrodes from waste biomass has attracted increasing attention among the energy storage and conversion field. In this work, we have synthesized nitrogen-doped activated carbon by a simultaneous pyrolysis/activation method from waste bones. It is found that the speci...
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sg-ntu-dr.10356-1467982021-03-11T02:49:41Z Waste bones derived nitrogen-doped carbon with high micropore ratio towards supercapacitor applications Niu, Lengyuan Shen, Cheng Yan, Lijin Zhang, Jiahao Lin, Yi Gong, Yinyan Li, Can Sun, Chang Qing Xu, Shiqing School of Electrical and Electronic Engineering Centre for Micro-/Nano-electronics (NOVITAS) Engineering::Electrical and electronic engineering Supercapacitor Activated Carbon Fabrication of high-performance electrodes from waste biomass has attracted increasing attention among the energy storage and conversion field. In this work, we have synthesized nitrogen-doped activated carbon by a simultaneous pyrolysis/activation method from waste bones. It is found that the specific surface area and pore structure of as-synthesized carbon depends on the carbonization temperature (500-800 °C), and the highest specific surface area is 1522 m2 g-1. The electrochemical properties of Pork bone, Blackfish bone, Eel bone based activated carbon (PBAC, BFAC, EBAC) mainly depend on their micro-/mesoporosity. Three samples PBAC-600, BFAC-600 and EBAC-600, which have higher ratio of micropore surface area and nitrogen content, exhibit enhanced specific capacitance of 263, 302 and 264F g-1 in 6 M KOH electrolyte. Furthermore, the assembled symmetric supercapacitors of PBAC-600 can deliver energy density as high as 7.0 and 26.2 Wh Kg-1 in the aqueous and ionic liquid electrolyte, respectively. Such excellent performance can be attributed to the microporous structure, reasonable pore size distribution and nitrogen self-doping of the activated carbon. This research indicates that waste bones have great potential for mass fabrication of the activated carbon electrodes for energy storage applications. This research was supported by Zhejiang Provincial Natural Science Foundation of China under Grant No. LQ18E030005, LY18E020007, LY18E060005, LY19E020006. 2021-03-11T02:49:41Z 2021-03-11T02:49:41Z 2019 Journal Article Niu, L., Shen, C., Yan, L., Zhang, J., Lin, Y., Gong, Y., Li, C., Sun, C. Q. & Xu, S. (2019). Waste bones derived nitrogen-doped carbon with high micropore ratio towards supercapacitor applications. Journal of Colloid and Interface Science, 547, 92-101. https://dx.doi.org/10.1016/j.jcis.2019.03.097 1095-7103 0000-0001-9631-4052 https://hdl.handle.net/10356/146798 10.1016/j.jcis.2019.03.097 30947096 2-s2.0-85063568606 547 92 101 en Journal of Colloid and Interface Science © 2019 Elsevier Inc. All rights reserved. |
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Engineering::Electrical and electronic engineering Supercapacitor Activated Carbon |
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Engineering::Electrical and electronic engineering Supercapacitor Activated Carbon Niu, Lengyuan Shen, Cheng Yan, Lijin Zhang, Jiahao Lin, Yi Gong, Yinyan Li, Can Sun, Chang Qing Xu, Shiqing Waste bones derived nitrogen-doped carbon with high micropore ratio towards supercapacitor applications |
| description |
Fabrication of high-performance electrodes from waste biomass has attracted increasing attention among the energy storage and conversion field. In this work, we have synthesized nitrogen-doped activated carbon by a simultaneous pyrolysis/activation method from waste bones. It is found that the specific surface area and pore structure of as-synthesized carbon depends on the carbonization temperature (500-800 °C), and the highest specific surface area is 1522 m2 g-1. The electrochemical properties of Pork bone, Blackfish bone, Eel bone based activated carbon (PBAC, BFAC, EBAC) mainly depend on their micro-/mesoporosity. Three samples PBAC-600, BFAC-600 and EBAC-600, which have higher ratio of micropore surface area and nitrogen content, exhibit enhanced specific capacitance of 263, 302 and 264F g-1 in 6 M KOH electrolyte. Furthermore, the assembled symmetric supercapacitors of PBAC-600 can deliver energy density as high as 7.0 and 26.2 Wh Kg-1 in the aqueous and ionic liquid electrolyte, respectively. Such excellent performance can be attributed to the microporous structure, reasonable pore size distribution and nitrogen self-doping of the activated carbon. This research indicates that waste bones have great potential for mass fabrication of the activated carbon electrodes for energy storage applications. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Niu, Lengyuan Shen, Cheng Yan, Lijin Zhang, Jiahao Lin, Yi Gong, Yinyan Li, Can Sun, Chang Qing Xu, Shiqing |
| format |
Article |
| author |
Niu, Lengyuan Shen, Cheng Yan, Lijin Zhang, Jiahao Lin, Yi Gong, Yinyan Li, Can Sun, Chang Qing Xu, Shiqing |
| author_sort |
Niu, Lengyuan |
| title |
Waste bones derived nitrogen-doped carbon with high micropore ratio towards supercapacitor applications |
| title_short |
Waste bones derived nitrogen-doped carbon with high micropore ratio towards supercapacitor applications |
| title_full |
Waste bones derived nitrogen-doped carbon with high micropore ratio towards supercapacitor applications |
| title_fullStr |
Waste bones derived nitrogen-doped carbon with high micropore ratio towards supercapacitor applications |
| title_full_unstemmed |
Waste bones derived nitrogen-doped carbon with high micropore ratio towards supercapacitor applications |
| title_sort |
waste bones derived nitrogen-doped carbon with high micropore ratio towards supercapacitor applications |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/146798 |
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1695706217326837760 |