Selection of graphene dopants for Na3V2(PO4)3 graphene composite as high rate, ultra long-life sodium-ion battery cathodes
Na3V2(PO4)3 (NVP) is one of the most promising cathode materials for sodium-ion batteries because of its stability, safety, and high reversible capacity. However, the sluggish Na-ion diffusion and poor electronic conductivity of NVP often hinder electrochemical performance, thus requiring compositin...
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sg-ntu-dr.10356-1511642021-06-09T06:13:45Z Selection of graphene dopants for Na3V2(PO4)3 graphene composite as high rate, ultra long-life sodium-ion battery cathodes Jiang, Haifeng Cai, Xiaoyi Wang, Zhan Zhang, Lili Zhou, Lijun Lai, Linfei Liu, Xiang School of Physical and Mathematical Sciences Science::Chemistry Energy Storage Composite Material Na3V2(PO4)3 (NVP) is one of the most promising cathode materials for sodium-ion batteries because of its stability, safety, and high reversible capacity. However, the sluggish Na-ion diffusion and poor electronic conductivity of NVP often hinder electrochemical performance, thus requiring compositing with carbon materials, such as graphene to improve the material. In this work, the effect of doping species of graphene on the electrochemical performance of NVP/graphene composites was systematically investigated and vigorously compared. 3D porous NVP fabricated by sol-gel method with 3 nm of carbon coating layers was deposited on graphene sheets with different surface functionalities (GO, N-rGO and P-rGO). NVP/N-rGO composites have low charge transfer resistance and high Na+ diffusion coefficient than that of NVP powder, NVP/P-rGO, and NVP/GO, which delivered a specific capacity of 113.9 mAh g−1 at 0.5C with a capacity retention up to 88.42% after 5000 cycles at 20 C. The superior sodium storage performance derives from the pyridinic and pyrrolic N doping in graphene, which triggers defective and active site numbers but maintains moderate graphitization to accelerate the Na+ and electron transportation. This work was supported by the National Natural Science Foundation of China (Grant No. 51502135), and Primary Research & Developement Plan of Jiangsu Province (BE2016183). The authors are grateful to Prof. Xia Hui, Nanjing University of Science & Technology for access to equipment. The authors are grateful to Prof. Jianmin Ma and Dr Zengxi Wei for discussion and theoretical calculation of NVP capacity. 2021-06-09T06:13:45Z 2021-06-09T06:13:45Z 2019 Journal Article Jiang, H., Cai, X., Wang, Z., Zhang, L., Zhou, L., Lai, L. & Liu, X. (2019). Selection of graphene dopants for Na3V2(PO4)3 graphene composite as high rate, ultra long-life sodium-ion battery cathodes. Electrochimica Acta, 306, 558-567. https://dx.doi.org/10.1016/j.electacta.2019.03.132 0013-4686 https://hdl.handle.net/10356/151164 10.1016/j.electacta.2019.03.132 2-s2.0-85064014022 306 558 567 en Electrochimica Acta © 2019 Elsevier Ltd. All rights reserved. |
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Science::Chemistry Energy Storage Composite Material Jiang, Haifeng Cai, Xiaoyi Wang, Zhan Zhang, Lili Zhou, Lijun Lai, Linfei Liu, Xiang Selection of graphene dopants for Na3V2(PO4)3 graphene composite as high rate, ultra long-life sodium-ion battery cathodes |
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Na3V2(PO4)3 (NVP) is one of the most promising cathode materials for sodium-ion batteries because of its stability, safety, and high reversible capacity. However, the sluggish Na-ion diffusion and poor electronic conductivity of NVP often hinder electrochemical performance, thus requiring compositing with carbon materials, such as graphene to improve the material. In this work, the effect of doping species of graphene on the electrochemical performance of NVP/graphene composites was systematically investigated and vigorously compared. 3D porous NVP fabricated by sol-gel method with 3 nm of carbon coating layers was deposited on graphene sheets with different surface functionalities (GO, N-rGO and P-rGO). NVP/N-rGO composites have low charge transfer resistance and high Na+ diffusion coefficient than that of NVP powder, NVP/P-rGO, and NVP/GO, which delivered a specific capacity of 113.9 mAh g−1 at 0.5C with a capacity retention up to 88.42% after 5000 cycles at 20 C. The superior sodium storage performance derives from the pyridinic and pyrrolic N doping in graphene, which triggers defective and active site numbers but maintains moderate graphitization to accelerate the Na+ and electron transportation. |
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School of Physical and Mathematical Sciences |
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School of Physical and Mathematical Sciences Jiang, Haifeng Cai, Xiaoyi Wang, Zhan Zhang, Lili Zhou, Lijun Lai, Linfei Liu, Xiang |
| format |
Article |
| author |
Jiang, Haifeng Cai, Xiaoyi Wang, Zhan Zhang, Lili Zhou, Lijun Lai, Linfei Liu, Xiang |
| author_sort |
Jiang, Haifeng |
| title |
Selection of graphene dopants for Na3V2(PO4)3 graphene composite as high rate, ultra long-life sodium-ion battery cathodes |
| title_short |
Selection of graphene dopants for Na3V2(PO4)3 graphene composite as high rate, ultra long-life sodium-ion battery cathodes |
| title_full |
Selection of graphene dopants for Na3V2(PO4)3 graphene composite as high rate, ultra long-life sodium-ion battery cathodes |
| title_fullStr |
Selection of graphene dopants for Na3V2(PO4)3 graphene composite as high rate, ultra long-life sodium-ion battery cathodes |
| title_full_unstemmed |
Selection of graphene dopants for Na3V2(PO4)3 graphene composite as high rate, ultra long-life sodium-ion battery cathodes |
| title_sort |
selection of graphene dopants for na3v2(po4)3 graphene composite as high rate, ultra long-life sodium-ion battery cathodes |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/151164 |
| _version_ |
1702431180125634560 |