Hierarchical NiCo-LDH core/shell homostructural electrodes with MOF-derived shell for electrochemical energy storage
Constructing hierarchical structure is an effective strategy to boost the electrochemical performance of layered double hydroxide (LDH) materials, but the rational design of such delicate architectures is still challenging. Herein, a unique hierarchical core/shell homostructure with NiCo-LDH nanorod...
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sg-ntu-dr.10356-1639292022-12-22T04:10:04Z Hierarchical NiCo-LDH core/shell homostructural electrodes with MOF-derived shell for electrochemical energy storage Zheng, Kun Liao, Leiping Zhang, Yu Tan, Hua Liu, Jingquan Li, Chenwei Jia, Dedong School of Physical and Mathematical Sciences Science::Chemistry MOF-Derived Supercapacitor Constructing hierarchical structure is an effective strategy to boost the electrochemical performance of layered double hydroxide (LDH) materials, but the rational design of such delicate architectures is still challenging. Herein, a unique hierarchical core/shell homostructure with NiCo-LDH nanorods (NCNRs) as core and NiCo-LDH nanosheets (NCNSs) as shell is constructed via in-situ ZIF shell growth and subsequent ion exchange-coprecipitation process. Such novel hierarchical structure provides a large accessible surface area and more exposed electrochemical active sites. The in-situ growth and conversion process contribute to the formation of robust adhesion between the core and the shell, which could facilitate the effective charge and ion diffusion, as well as improve the mechanical stability. Benefiting from the unique structure, the NCNRs@NCNSs electrode exhibits a high capacitance of 2640.2 F g-1, along with the good rate performance and cyclic stability. Furthermore, the as-assembled asymmetric supercapacitor of NCNRs@NCNSs//AC device displays a high energy density of 22.81 Wh kg-1 at the power density of 374.95 W kg-1. This work demonstrates a new strategy for designing hierarchical LDH with core/shell structure as electrode materials for superior electrochemical energy storage. The authors are thankful to funds from the National Natural Science Foundation of China (52002194 and 51802168), Natural Science Foundation of Shandong Province (ZR2020QE065), the China Postdoctoral Science Foundation (2019M652317), the Shandong Postdoctoral Innovation Project, the Qingdao Postdoctoral Application Research Project and Shandong Double Hundred Foreign Experts program. 2022-12-22T04:10:03Z 2022-12-22T04:10:03Z 2022 Journal Article Zheng, K., Liao, L., Zhang, Y., Tan, H., Liu, J., Li, C. & Jia, D. (2022). Hierarchical NiCo-LDH core/shell homostructural electrodes with MOF-derived shell for electrochemical energy storage. Journal of Colloid and Interface Science, 619, 75-83. https://dx.doi.org/10.1016/j.jcis.2022.03.056 0021-9797 https://hdl.handle.net/10356/163929 10.1016/j.jcis.2022.03.056 35367926 2-s2.0-85127235891 619 75 83 en Journal of Colloid and Interface Science © 2022 Elsevier Inc. All rights reserved. |
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Science::Chemistry MOF-Derived Supercapacitor Zheng, Kun Liao, Leiping Zhang, Yu Tan, Hua Liu, Jingquan Li, Chenwei Jia, Dedong Hierarchical NiCo-LDH core/shell homostructural electrodes with MOF-derived shell for electrochemical energy storage |
| description |
Constructing hierarchical structure is an effective strategy to boost the electrochemical performance of layered double hydroxide (LDH) materials, but the rational design of such delicate architectures is still challenging. Herein, a unique hierarchical core/shell homostructure with NiCo-LDH nanorods (NCNRs) as core and NiCo-LDH nanosheets (NCNSs) as shell is constructed via in-situ ZIF shell growth and subsequent ion exchange-coprecipitation process. Such novel hierarchical structure provides a large accessible surface area and more exposed electrochemical active sites. The in-situ growth and conversion process contribute to the formation of robust adhesion between the core and the shell, which could facilitate the effective charge and ion diffusion, as well as improve the mechanical stability. Benefiting from the unique structure, the NCNRs@NCNSs electrode exhibits a high capacitance of 2640.2 F g-1, along with the good rate performance and cyclic stability. Furthermore, the as-assembled asymmetric supercapacitor of NCNRs@NCNSs//AC device displays a high energy density of 22.81 Wh kg-1 at the power density of 374.95 W kg-1. This work demonstrates a new strategy for designing hierarchical LDH with core/shell structure as electrode materials for superior electrochemical energy storage. |
| author2 |
School of Physical and Mathematical Sciences |
| author_facet |
School of Physical and Mathematical Sciences Zheng, Kun Liao, Leiping Zhang, Yu Tan, Hua Liu, Jingquan Li, Chenwei Jia, Dedong |
| format |
Article |
| author |
Zheng, Kun Liao, Leiping Zhang, Yu Tan, Hua Liu, Jingquan Li, Chenwei Jia, Dedong |
| author_sort |
Zheng, Kun |
| title |
Hierarchical NiCo-LDH core/shell homostructural electrodes with MOF-derived shell for electrochemical energy storage |
| title_short |
Hierarchical NiCo-LDH core/shell homostructural electrodes with MOF-derived shell for electrochemical energy storage |
| title_full |
Hierarchical NiCo-LDH core/shell homostructural electrodes with MOF-derived shell for electrochemical energy storage |
| title_fullStr |
Hierarchical NiCo-LDH core/shell homostructural electrodes with MOF-derived shell for electrochemical energy storage |
| title_full_unstemmed |
Hierarchical NiCo-LDH core/shell homostructural electrodes with MOF-derived shell for electrochemical energy storage |
| title_sort |
hierarchical nico-ldh core/shell homostructural electrodes with mof-derived shell for electrochemical energy storage |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/163929 |
| _version_ |
1753801184603275264 |