Rationally designed Mn₂O₃ -ZnMn₂ O₄ hollow heterostructures from metal-organic frameworks for stable Zn-ion storage
Mn-based oxides have sparked extensive scientific interest for aqueous Zn-ion batteries due to the rich abundance, plentiful oxidation states, and high output voltage. However, the further development of Mn-based oxides is severely hindered by the rapid capacity decay during cycling. Herein, a two-s...
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sg-ntu-dr.10356-1569362023-12-29T06:48:10Z Rationally designed Mn₂O₃ -ZnMn₂ O₄ hollow heterostructures from metal-organic frameworks for stable Zn-ion storage Zeng, Yinxiang Wang, Yan Jin, Qi Pei, Zhihao Luan, Deyan Zhang, Xitian Lou, David Xiong Wen School of Chemical and Biomedical Engineering Engineering::Chemical engineering Heterostructures Hollow Octahedrons Mn-based oxides have sparked extensive scientific interest for aqueous Zn-ion batteries due to the rich abundance, plentiful oxidation states, and high output voltage. However, the further development of Mn-based oxides is severely hindered by the rapid capacity decay during cycling. Herein, a two-step metal-organic framework (MOF)-engaged templating strategy has been developed to rationally synthesize heterostructured Mn2 O3 -ZnMn2 O4 hollow octahedrons (MO-ZMO HOs) for stable zinc ion storage. The distinctive composition and hollow heterostructure endow MO-ZMO HOs with abundant active sites, enhanced electric conductivity, and superior structural stability. By virtue of these advantages, the MO-ZMO HOs electrode shows high reversible capacity, impressive rate performance, and outstanding electrochemical stability. Furthermore, ex situ characterizations reveal that the charge storage of MO-ZMO HOs mainly originates from the highly reversible Zn2+ insertion/extraction reactions. Ministry of Education (MOE) Submitted/Accepted version X.W.L. acknowledges the funding support from the Ministry of Education of Singapore through the Academic Research Fund (AcRF)Tier-1 grant (RG3/20) and Tier-2 grant (MOE2017-T2-2–003). 2022-04-27T07:28:27Z 2022-04-27T07:28:27Z 2021 Journal Article Zeng, Y., Wang, Y., Jin, Q., Pei, Z., Luan, D., Zhang, X. & Lou, D. X. W. (2021). Rationally designed Mn₂O₃ -ZnMn₂ O₄ hollow heterostructures from metal-organic frameworks for stable Zn-ion storage. Angewandte Chemie International Edition, 60(49), 25793-25798. https://dx.doi.org/10.1002/anie.202113487 1433-7851 https://hdl.handle.net/10356/156936 10.1002/anie.202113487 34676649 2-s2.0-85118509500 49 60 25793 25798 en RG3/20 MOE2017-T2-2–003 Angewandte Chemie International Edition This is the peer reviewed version of the following article: Zeng, Y., Wang, Y., Jin, Q., Pei, Z., Luan, D., Zhang, X. & Lou, D. X. W. (2021). Rationally designed Mn₂O₃ -ZnMn₂ O₄ hollow heterostructures from metal-organic frameworks for stable Zn-ion storage. Angewandte Chemie International Edition, 60(49), 25793-25798, which has been published in final form at https://doi.org/10.1002/anie.202113487. This article may be used for non-commercial purposes in accordance with Wiley Terms and Conditions for Use of Self-Archived Versions. application/pdf |
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Engineering::Chemical engineering Heterostructures Hollow Octahedrons Zeng, Yinxiang Wang, Yan Jin, Qi Pei, Zhihao Luan, Deyan Zhang, Xitian Lou, David Xiong Wen Rationally designed Mn₂O₃ -ZnMn₂ O₄ hollow heterostructures from metal-organic frameworks for stable Zn-ion storage |
| description |
Mn-based oxides have sparked extensive scientific interest for aqueous Zn-ion batteries due to the rich abundance, plentiful oxidation states, and high output voltage. However, the further development of Mn-based oxides is severely hindered by the rapid capacity decay during cycling. Herein, a two-step metal-organic framework (MOF)-engaged templating strategy has been developed to rationally synthesize heterostructured Mn2 O3 -ZnMn2 O4 hollow octahedrons (MO-ZMO HOs) for stable zinc ion storage. The distinctive composition and hollow heterostructure endow MO-ZMO HOs with abundant active sites, enhanced electric conductivity, and superior structural stability. By virtue of these advantages, the MO-ZMO HOs electrode shows high reversible capacity, impressive rate performance, and outstanding electrochemical stability. Furthermore, ex situ characterizations reveal that the charge storage of MO-ZMO HOs mainly originates from the highly reversible Zn2+ insertion/extraction reactions. |
| author2 |
School of Chemical and Biomedical Engineering |
| author_facet |
School of Chemical and Biomedical Engineering Zeng, Yinxiang Wang, Yan Jin, Qi Pei, Zhihao Luan, Deyan Zhang, Xitian Lou, David Xiong Wen |
| format |
Article |
| author |
Zeng, Yinxiang Wang, Yan Jin, Qi Pei, Zhihao Luan, Deyan Zhang, Xitian Lou, David Xiong Wen |
| author_sort |
Zeng, Yinxiang |
| title |
Rationally designed Mn₂O₃ -ZnMn₂ O₄ hollow heterostructures from metal-organic frameworks for stable Zn-ion storage |
| title_short |
Rationally designed Mn₂O₃ -ZnMn₂ O₄ hollow heterostructures from metal-organic frameworks for stable Zn-ion storage |
| title_full |
Rationally designed Mn₂O₃ -ZnMn₂ O₄ hollow heterostructures from metal-organic frameworks for stable Zn-ion storage |
| title_fullStr |
Rationally designed Mn₂O₃ -ZnMn₂ O₄ hollow heterostructures from metal-organic frameworks for stable Zn-ion storage |
| title_full_unstemmed |
Rationally designed Mn₂O₃ -ZnMn₂ O₄ hollow heterostructures from metal-organic frameworks for stable Zn-ion storage |
| title_sort |
rationally designed mn₂o₃ -znmn₂ o₄ hollow heterostructures from metal-organic frameworks for stable zn-ion storage |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/156936 |
| _version_ |
1787136553190948864 |