Aluminum-Based Metal–Organic Frameworks Derived Al2O3‑Loading Mesoporous Carbon as a Host Matrix for Lithium-Metal Anodes
Li-metal anode attracts great focus owing to its ultra-high specific capacity and the lowest redox potential. However, the uncontrolled growth of Li dendrite leads to severe security issues and limited cycle life. Herein, Al2O3 loading mesoporous carbon (Al2O3@MOF-C) derived from Al-based metal–orga...
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| Published in | ACS applied materials & interfaces Vol. 11; no. 51; pp. 47939 - 47947 |
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| Main Authors | , , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
American Chemical Society
26.12.2019
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| Subjects | |
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| Abstract | Li-metal anode attracts great focus owing to its ultra-high specific capacity and the lowest redox potential. However, the uncontrolled growth of Li dendrite leads to severe security issues and limited cycle life. Herein, Al2O3 loading mesoporous carbon (Al2O3@MOF-C) derived from Al-based metal–organic frameworks (Al-MOFs) was investigated as the stable host matrix for Li metal, in which, Al2O3 was served as nano seeds for the Li deposition and decrease the Li nucleation overpotential. Except that, the high specific surface area and wide pore distribution can also buffer the volume changes of Li and fasten electron transfer, hence a dendrite-free morphology was observed even after 50 cycles at 2 mA cm–2. High Li coulombic efficiency of 97.9% after 100 cycles at 1 mA cm–2, 1 mAh cm–2, and 97.6% after 50 cycles at 1 mA cm-2 and 6 mAh cm–2 were performed by Al2O3@MOF-C electrodes. Good performances were also obtained for Li–sulfur and LiFePO4 batteries. The performances of Al2O3@MOF-C@Li were compared with Li foil and Cu@Li in full cell configurations. The electrochemical tests of full cells based on Al2O3@MOF-C@Li indicated that this Al-based functional host matrix can enhance the Li-utilization and lead to significant enhancement of the cycling performance of Li anodes. |
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| AbstractList | Li-metal anode attracts great focus owing to its ultra-high specific capacity and the lowest redox potential. However, the uncontrolled growth of Li dendrite leads to severe security issues and limited cycle life. Herein, Al2O3 loading mesoporous carbon (Al2O3@MOF-C) derived from Al-based metal–organic frameworks (Al-MOFs) was investigated as the stable host matrix for Li metal, in which, Al2O3 was served as nano seeds for the Li deposition and decrease the Li nucleation overpotential. Except that, the high specific surface area and wide pore distribution can also buffer the volume changes of Li and fasten electron transfer, hence a dendrite-free morphology was observed even after 50 cycles at 2 mA cm–2. High Li coulombic efficiency of 97.9% after 100 cycles at 1 mA cm–2, 1 mAh cm–2, and 97.6% after 50 cycles at 1 mA cm-2 and 6 mAh cm–2 were performed by Al2O3@MOF-C electrodes. Good performances were also obtained for Li–sulfur and LiFePO4 batteries. The performances of Al2O3@MOF-C@Li were compared with Li foil and Cu@Li in full cell configurations. The electrochemical tests of full cells based on Al2O3@MOF-C@Li indicated that this Al-based functional host matrix can enhance the Li-utilization and lead to significant enhancement of the cycling performance of Li anodes. Li-metal anode attracts great focus owing to its ultra-high specific capacity and the lowest redox potential. However, the uncontrolled growth of Li dendrite leads to severe security issues and limited cycle life. Herein, Al₂O₃ loading mesoporous carbon (Al₂O₃@MOF-C) derived from Al-based metal–organic frameworks (Al-MOFs) was investigated as the stable host matrix for Li metal, in which, Al₂O₃ was served as nano seeds for the Li deposition and decrease the Li nucleation overpotential. Except that, the high specific surface area and wide pore distribution can also buffer the volume changes of Li and fasten electron transfer, hence a dendrite-free morphology was observed even after 50 cycles at 2 mA cm–². High Li coulombic efficiency of 97.9% after 100 cycles at 1 mA cm–², 1 mAh cm–², and 97.6% after 50 cycles at 1 mA cm-² and 6 mAh cm–² were performed by Al₂O₃@MOF-C electrodes. Good performances were also obtained for Li–sulfur and LiFePO₄ batteries. The performances of Al₂O₃@MOF-C@Li were compared with Li foil and Cu@Li in full cell configurations. The electrochemical tests of full cells based on Al₂O₃@MOF-C@Li indicated that this Al-based functional host matrix can enhance the Li-utilization and lead to significant enhancement of the cycling performance of Li anodes. Li-metal anode attracts great focus owing to its ultra-high specific capacity and the lowest redox potential. However, the uncontrolled growth of Li dendrite leads to severe security issues and limited cycle life. Herein, Al2O3 loading mesoporous carbon (Al2O3@MOF-C) derived from Al-based metal-organic frameworks (Al-MOFs) was investigated as the stable host matrix for Li metal, in which, Al2O3 was served as nano seeds for the Li deposition and decrease the Li nucleation overpotential. Except that, the high specific surface area and wide pore distribution can also buffer the volume changes of Li and fasten electron transfer, hence a dendrite-free morphology was observed even after 50 cycles at 2 mA cm-2. High Li coulombic efficiency of 97.9% after 100 cycles at 1 mA cm-2, 1 mAh cm-2, and 97.6% after 50 cycles at 1 mA cm-2 and 6 mAh cm-2 were performed by Al2O3@MOF-C electrodes. Good performances were also obtained for Li-sulfur and LiFePO4 batteries. The performances of Al2O3@MOF-C@Li were compared with Li foil and Cu@Li in full cell configurations. The electrochemical tests of full cells based on Al2O3@MOF-C@Li indicated that this Al-based functional host matrix can enhance the Li-utilization and lead to significant enhancement of the cycling performance of Li anodes.Li-metal anode attracts great focus owing to its ultra-high specific capacity and the lowest redox potential. However, the uncontrolled growth of Li dendrite leads to severe security issues and limited cycle life. Herein, Al2O3 loading mesoporous carbon (Al2O3@MOF-C) derived from Al-based metal-organic frameworks (Al-MOFs) was investigated as the stable host matrix for Li metal, in which, Al2O3 was served as nano seeds for the Li deposition and decrease the Li nucleation overpotential. Except that, the high specific surface area and wide pore distribution can also buffer the volume changes of Li and fasten electron transfer, hence a dendrite-free morphology was observed even after 50 cycles at 2 mA cm-2. High Li coulombic efficiency of 97.9% after 100 cycles at 1 mA cm-2, 1 mAh cm-2, and 97.6% after 50 cycles at 1 mA cm-2 and 6 mAh cm-2 were performed by Al2O3@MOF-C electrodes. Good performances were also obtained for Li-sulfur and LiFePO4 batteries. The performances of Al2O3@MOF-C@Li were compared with Li foil and Cu@Li in full cell configurations. The electrochemical tests of full cells based on Al2O3@MOF-C@Li indicated that this Al-based functional host matrix can enhance the Li-utilization and lead to significant enhancement of the cycling performance of Li anodes. |
| Author | Wang, Chuan-Wei Zhou, Yao Światowska, Jolanta Li, Jun-Tao Zhang, Shao-Jian Li, Yu-Yang Liu, Qian Huang, Ling Hu, Yi-Yang Chen, Jian-De You, Jin-Hai Sun, Shi-Gang |
| AuthorAffiliation | State Key Lab of Physical Chemistry of Solid Surface, College of Chemistry and Chemical Engineering College of Energy PSL Research University |
| AuthorAffiliation_xml | – name: State Key Lab of Physical Chemistry of Solid Surface, College of Chemistry and Chemical Engineering – name: College of Energy – name: PSL Research University |
| Author_xml | – sequence: 1 givenname: Shao-Jian surname: Zhang fullname: Zhang, Shao-Jian – sequence: 2 givenname: Jin-Hai surname: You fullname: You, Jin-Hai – sequence: 3 givenname: Jian-De surname: Chen fullname: Chen, Jian-De – sequence: 4 givenname: Yi-Yang surname: Hu fullname: Hu, Yi-Yang – sequence: 5 givenname: Chuan-Wei surname: Wang fullname: Wang, Chuan-Wei – sequence: 6 givenname: Qian surname: Liu fullname: Liu, Qian – sequence: 7 givenname: Yu-Yang surname: Li fullname: Li, Yu-Yang – sequence: 8 givenname: Yao orcidid: 0000-0003-4021-6597 surname: Zhou fullname: Zhou, Yao – sequence: 9 givenname: Jun-Tao orcidid: 0000-0002-9650-6385 surname: Li fullname: Li, Jun-Tao email: jtli@xmu.edu.cn – sequence: 10 givenname: Jolanta surname: Światowska fullname: Światowska, Jolanta email: jolanta.swiatowska@chimie-paristech.fr organization: PSL Research University – sequence: 11 givenname: Ling orcidid: 0000-0003-1092-5974 surname: Huang fullname: Huang, Ling – sequence: 12 givenname: Shi-Gang orcidid: 0000-0003-2327-4090 surname: Sun fullname: Sun, Shi-Gang email: sgsun@xmu.edu.cn |
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| SubjectTerms | aluminum oxide anodes batteries carbon coordination polymers copper electrochemistry electron transfer foil lithium porous media redox potential surface area |
| Title | Aluminum-Based Metal–Organic Frameworks Derived Al2O3‑Loading Mesoporous Carbon as a Host Matrix for Lithium-Metal Anodes |
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