Morphology controlled lithium storage in Li3VO4 anodes
Li3VO4 (LVO) anode materials with controllable morphologies ranging from spherical-assemblies, single-crystal nanorods, and flower shapes to bulk-shapes were fabricated via a solvothermal approach using different alcohols (i.e., ethanol, methanol, propanol, and butanol). XRD, SEM, BET, Raman and FTI...
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sg-ntu-dr.10356-880602021-01-10T11:22:04Z Morphology controlled lithium storage in Li3VO4 anodes Yang, Guang Zhang, Bowei Feng, Jianyong Lu, Yu Wang, Zhiqiang Aravindan, Vanchiappan Aravind, Muthiah Liu, Jilei Srinivasan, Madhavi Shen, Zexiang Huang, Yizhong School of Materials Science & Engineering School of Physical and Mathematical Sciences Energy Research Institute @ NTU (ERI@N) Research Techno Plaza Li3VO4 Morphologies Li3VO4 (LVO) anode materials with controllable morphologies ranging from spherical-assemblies, single-crystal nanorods, and flower shapes to bulk-shapes were fabricated via a solvothermal approach using different alcohols (i.e., ethanol, methanol, propanol, and butanol). XRD, SEM, BET, Raman and FTIR and galvanostatic charge/discharge measurements were carried out to correlate their structure/morphology with their electrochemical characteristics. The experimental results reveal that both structure and morphology play important roles in the Li+ ion storage of LVO, which degrades in the sequential order from nanorods, to spheres, to flowers and finally to bulk. The LVO nanorods are hierarchical and have a small particle size, high specific surface area, and high crystallinity; thus, they exhibit the largest Li+ ion diffusion coefficient and best electrochemical performance among the four electrodes. Moreover, coating carbon on the single-crystal LVO nanorods further enhances their Li+ ion storage ability. Consequently, the carbon-coated LVO nanorods deliver a high reversible capacity of 440 mA h g−1 at 0.1 A g−1 with good cycling stability and demonstrate great practical application. In addition, the results promote a better fundamental understanding of the Li+ ion storage behavior in LVO and provide insight into the optimal design of LVO and other vanadium-based electrode materials. MOE (Min. of Education, S’pore) Accepted version 2018-03-23T08:12:14Z 2019-12-06T16:55:10Z 2018-03-23T08:12:14Z 2019-12-06T16:55:10Z 2018 Journal Article Yang, G., Zhang, B., Feng, J., Lu, Y., Wang, Z., Aravindan, V., et al. (2018). Morphology controlled lithium storage in Li3VO4 anodes. Journal of Materials Chemistry A, 6(2), 456-463. 2050-7488 https://hdl.handle.net/10356/88060 http://hdl.handle.net/10220/44608 10.1039/C7TA09023D en Journal of Materials Chemistry A © 2018 The Royal Society of Chemistry. This is the author created version of a work that has been peer reviewed and accepted for publication by Journal of Materials Chemistry A, The Royal Society of Chemistry. It incorporates referee’s comments but changes resulting from the publishing process, such as copyediting, structural formatting, may not be reflected in this document. The published version is available at: [http://dx.doi.org/10.1039/C7TA09023D]. 7 p. application/pdf |
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Li3VO4 Morphologies |
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Li3VO4 Morphologies Yang, Guang Zhang, Bowei Feng, Jianyong Lu, Yu Wang, Zhiqiang Aravindan, Vanchiappan Aravind, Muthiah Liu, Jilei Srinivasan, Madhavi Shen, Zexiang Huang, Yizhong Morphology controlled lithium storage in Li3VO4 anodes |
| description |
Li3VO4 (LVO) anode materials with controllable morphologies ranging from spherical-assemblies, single-crystal nanorods, and flower shapes to bulk-shapes were fabricated via a solvothermal approach using different alcohols (i.e., ethanol, methanol, propanol, and butanol). XRD, SEM, BET, Raman and FTIR and galvanostatic charge/discharge measurements were carried out to correlate their structure/morphology with their electrochemical characteristics. The experimental results reveal that both structure and morphology play important roles in the Li+ ion storage of LVO, which degrades in the sequential order from nanorods, to spheres, to flowers and finally to bulk. The LVO nanorods are hierarchical and have a small particle size, high specific surface area, and high crystallinity; thus, they exhibit the largest Li+ ion diffusion coefficient and best electrochemical performance among the four electrodes. Moreover, coating carbon on the single-crystal LVO nanorods further enhances their Li+ ion storage ability. Consequently, the carbon-coated LVO nanorods deliver a high reversible capacity of 440 mA h g−1 at 0.1 A g−1 with good cycling stability and demonstrate great practical application. In addition, the results promote a better fundamental understanding of the Li+ ion storage behavior in LVO and provide insight into the optimal design of LVO and other vanadium-based electrode materials. |
| author2 |
School of Materials Science & Engineering |
| author_facet |
School of Materials Science & Engineering Yang, Guang Zhang, Bowei Feng, Jianyong Lu, Yu Wang, Zhiqiang Aravindan, Vanchiappan Aravind, Muthiah Liu, Jilei Srinivasan, Madhavi Shen, Zexiang Huang, Yizhong |
| format |
Article |
| author |
Yang, Guang Zhang, Bowei Feng, Jianyong Lu, Yu Wang, Zhiqiang Aravindan, Vanchiappan Aravind, Muthiah Liu, Jilei Srinivasan, Madhavi Shen, Zexiang Huang, Yizhong |
| author_sort |
Yang, Guang |
| title |
Morphology controlled lithium storage in Li3VO4 anodes |
| title_short |
Morphology controlled lithium storage in Li3VO4 anodes |
| title_full |
Morphology controlled lithium storage in Li3VO4 anodes |
| title_fullStr |
Morphology controlled lithium storage in Li3VO4 anodes |
| title_full_unstemmed |
Morphology controlled lithium storage in Li3VO4 anodes |
| title_sort |
morphology controlled lithium storage in li3vo4 anodes |
| publishDate |
2018 |
| url |
https://hdl.handle.net/10356/88060 http://hdl.handle.net/10220/44608 |
| _version_ |
1690658471723139072 |