Heteroatom dopant strategy triggered high-potential plateau to non-graphitized carbon with highly disordered microstructure for high-performance sodium ion storage
Non-graphitized carbon (NGC) has been extensively utilized as carbonaceous anode in sodium-ion batteries (SIBs). However, more optimization to achieve competitive capacity and stability is still challenging for SIBs. In the study, the dopant strategy is utilized to construct nitrogen/sulfur-doped no...
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sg-ntu-dr.10356-1691382023-07-03T04:51:36Z Heteroatom dopant strategy triggered high-potential plateau to non-graphitized carbon with highly disordered microstructure for high-performance sodium ion storage Zhang, Peilin Huang, Chen Xiu, Mingzhen Zhu, Siyu Wang, Weiwei Zhu, Bo Qin, Likang Huang, Yizhong Chen, Luyang School of Materials Science and Engineering Energy Research Institute @ NTU (ERI@N) Engineering::Materials Non-Graphitized Carbon Highly Disordered Microstructure Non-graphitized carbon (NGC) has been extensively utilized as carbonaceous anode in sodium-ion batteries (SIBs). However, more optimization to achieve competitive capacity and stability is still challenging for SIBs. In the study, the dopant strategy is utilized to construct nitrogen/sulfur-doped non-graphitized carbon (N-NGC or S-NGC) shell decorated on three-dimensional graphene foam (GF) as a self-support electrode. The highly disordered microstructures of heteroatom doped carbons are produced by applying a low-temperature pyrolysis treatment to precursors containing nitrogen and sulfur. The DFT calculations of Na-ion adsorption energies at diverse heteroatom sites show marginal-S, pyrrolic N and pyridinic N with more intensive Na-ion adsorption ability than middle-S, C[dbnd]O and pristine carbon. The N-NGC with dominant small graphitic regions delivers adsorption ability to Na-ion, while the S-NGC with significant single carbon lattice stripes demonstrates redox reaction with Na-ion. Evidently, in comparison with only adsorption-driven slope regions at high potential for N-NGC, the redox reaction-generated potential-plateau enables non-graphitized S-NGC superior discharge/charge capacity and cycle-stability in the slope region. This work could provide deep insight into the rational design of non-graphitized carbon with rich microstructure and composition. This work was supported by the National Natural Science Foundation of China (52272296, 51502092), the Fundamental Research Funds for the Central Universities (JKD01211601, 1222201718002), the National Overseas High-Level Talent Youth Program in China, and the Eastern Scholar Project of Shanghai. 2023-07-03T04:51:36Z 2023-07-03T04:51:36Z 2023 Journal Article Zhang, P., Huang, C., Xiu, M., Zhu, S., Wang, W., Zhu, B., Qin, L., Huang, Y. & Chen, L. (2023). Heteroatom dopant strategy triggered high-potential plateau to non-graphitized carbon with highly disordered microstructure for high-performance sodium ion storage. Journal of Energy Chemistry, 79, 192-200. https://dx.doi.org/10.1016/j.jechem.2022.12.025 2095-4956 https://hdl.handle.net/10356/169138 10.1016/j.jechem.2022.12.025 2-s2.0-85147228393 79 192 200 en Journal of Energy Chemistry © 2023 Science Press and Dalian Institute of Chemical Physics, Chinese Academy of Sciences. Published by ELSEVIER B.V. and Science Press. All rights reserved. |
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Engineering::Materials Non-Graphitized Carbon Highly Disordered Microstructure Zhang, Peilin Huang, Chen Xiu, Mingzhen Zhu, Siyu Wang, Weiwei Zhu, Bo Qin, Likang Huang, Yizhong Chen, Luyang Heteroatom dopant strategy triggered high-potential plateau to non-graphitized carbon with highly disordered microstructure for high-performance sodium ion storage |
| description |
Non-graphitized carbon (NGC) has been extensively utilized as carbonaceous anode in sodium-ion batteries (SIBs). However, more optimization to achieve competitive capacity and stability is still challenging for SIBs. In the study, the dopant strategy is utilized to construct nitrogen/sulfur-doped non-graphitized carbon (N-NGC or S-NGC) shell decorated on three-dimensional graphene foam (GF) as a self-support electrode. The highly disordered microstructures of heteroatom doped carbons are produced by applying a low-temperature pyrolysis treatment to precursors containing nitrogen and sulfur. The DFT calculations of Na-ion adsorption energies at diverse heteroatom sites show marginal-S, pyrrolic N and pyridinic N with more intensive Na-ion adsorption ability than middle-S, C[dbnd]O and pristine carbon. The N-NGC with dominant small graphitic regions delivers adsorption ability to Na-ion, while the S-NGC with significant single carbon lattice stripes demonstrates redox reaction with Na-ion. Evidently, in comparison with only adsorption-driven slope regions at high potential for N-NGC, the redox reaction-generated potential-plateau enables non-graphitized S-NGC superior discharge/charge capacity and cycle-stability in the slope region. This work could provide deep insight into the rational design of non-graphitized carbon with rich microstructure and composition. |
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School of Materials Science and Engineering |
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School of Materials Science and Engineering Zhang, Peilin Huang, Chen Xiu, Mingzhen Zhu, Siyu Wang, Weiwei Zhu, Bo Qin, Likang Huang, Yizhong Chen, Luyang |
| format |
Article |
| author |
Zhang, Peilin Huang, Chen Xiu, Mingzhen Zhu, Siyu Wang, Weiwei Zhu, Bo Qin, Likang Huang, Yizhong Chen, Luyang |
| author_sort |
Zhang, Peilin |
| title |
Heteroatom dopant strategy triggered high-potential plateau to non-graphitized carbon with highly disordered microstructure for high-performance sodium ion storage |
| title_short |
Heteroatom dopant strategy triggered high-potential plateau to non-graphitized carbon with highly disordered microstructure for high-performance sodium ion storage |
| title_full |
Heteroatom dopant strategy triggered high-potential plateau to non-graphitized carbon with highly disordered microstructure for high-performance sodium ion storage |
| title_fullStr |
Heteroatom dopant strategy triggered high-potential plateau to non-graphitized carbon with highly disordered microstructure for high-performance sodium ion storage |
| title_full_unstemmed |
Heteroatom dopant strategy triggered high-potential plateau to non-graphitized carbon with highly disordered microstructure for high-performance sodium ion storage |
| title_sort |
heteroatom dopant strategy triggered high-potential plateau to non-graphitized carbon with highly disordered microstructure for high-performance sodium ion storage |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/169138 |
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1772825674540646400 |