Recent progress in multivalent metal (Mg, Zn, Ca, and Al) and metal-ion rechargeable batteries with organic materials as promising electrodes
The emerging demand for electronic and transportation technologies has driven the development of rechargeable batteries with enhanced capacity storage. Especially, multivalent metal (Mg, Zn, Ca, and Al) and metal-ion batteries have recently attracted considerable interests as promising substitutes f...
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sg-ntu-dr.10356-1440992023-07-14T15:53:39Z Recent progress in multivalent metal (Mg, Zn, Ca, and Al) and metal-ion rechargeable batteries with organic materials as promising electrodes Xie, Jian Zhang, Qichun School of Materials Science and Engineering Engineering::Materials Organic Electrodes Multivalent Metals The emerging demand for electronic and transportation technologies has driven the development of rechargeable batteries with enhanced capacity storage. Especially, multivalent metal (Mg, Zn, Ca, and Al) and metal-ion batteries have recently attracted considerable interests as promising substitutes for future large-scale energy storage devices, due to their natural abundance and multielectron redox capability. These metals are compatible with nonflammable aqueous electrolytes and are less reactive when exposed in ambient atmosphere as compared with Li metals, hence enabling potential safer battery systems. Luckily, green and sustainable organic compounds could be designed and tailored as universal host materials to accommodate multivalent metal ions. Considering these advantages, effective approaches toward achieving organic multivalent metal and metal-ion rechargeable batteries are highlighted in this Review. Moreover, organic structures, cell configurations, and key relevant electrochemical parameters are presented. Hopefully, this Review will provide a fundamental guidance for future development of organic-based multivalent metal and metal-ion rechargeable batteries. Ministry of Education (MOE) Accepted version Q.Z. acknowledges financial support from AcRF Tier 1 (RG 111/17, RG 2/17, RG 114/16, RG 8/16) and Tier 2 (MOE 2017-T2-1-021 and MOE 2018-T2-1-070), Singapore. 2020-10-13T05:34:37Z 2020-10-13T05:34:37Z 2019 Journal Article Xie, J., & Zhang, Q. (2019). Recent progress in multivalent metal (Mg, Zn, Ca, and Al) and metal-ion rechargeable batteries with organic materials as promising electrodes. Small, 15(15), e1805061-. doi:10.1002/smll.201805061 1613-6829 https://hdl.handle.net/10356/144099 10.1002/smll.201805061 30848095 15 15 e1805061 en AcRF Tier 1 RG 111/17 AcRF Tier RG 2/17 AcRF Tier 1 RG 114/16 AcRF Tier 1 RG 8/16 MOE 2017‐T2‐1‐021 MOE 2018‐T2‐1‐070 Small This is the accepted version of the following article: Xie, J., & Zhang, Q. (2019). Recent progress in multivalent metal (Mg, Zn, Ca, and Al) and metal-ion rechargeable batteries with organic materials as promising electrodes. Small, 15(15), e1805061-. doi:10.1002/smll.201805061, which has been published in final form at 10.1002/smll.201805061. This article may be used for non-commercial purposes in accordance with the Wiley Self-Archiving Policy [https://authorservices.wiley.com/authorresources/Journal-Authors/licensing/self-archiving.html]. application/pdf |
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Engineering::Materials Organic Electrodes Multivalent Metals Xie, Jian Zhang, Qichun Recent progress in multivalent metal (Mg, Zn, Ca, and Al) and metal-ion rechargeable batteries with organic materials as promising electrodes |
| description |
The emerging demand for electronic and transportation technologies has driven the development of rechargeable batteries with enhanced capacity storage. Especially, multivalent metal (Mg, Zn, Ca, and Al) and metal-ion batteries have recently attracted considerable interests as promising substitutes for future large-scale energy storage devices, due to their natural abundance and multielectron redox capability. These metals are compatible with nonflammable aqueous electrolytes and are less reactive when exposed in ambient atmosphere as compared with Li metals, hence enabling potential safer battery systems. Luckily, green and sustainable organic compounds could be designed and tailored as universal host materials to accommodate multivalent metal ions. Considering these advantages, effective approaches toward achieving organic multivalent metal and metal-ion rechargeable batteries are highlighted in this Review. Moreover, organic structures, cell configurations, and key relevant electrochemical parameters are presented. Hopefully, this Review will provide a fundamental guidance for future development of organic-based multivalent metal and metal-ion rechargeable batteries. |
| author2 |
School of Materials Science and Engineering |
| author_facet |
School of Materials Science and Engineering Xie, Jian Zhang, Qichun |
| format |
Article |
| author |
Xie, Jian Zhang, Qichun |
| author_sort |
Xie, Jian |
| title |
Recent progress in multivalent metal (Mg, Zn, Ca, and Al) and metal-ion rechargeable batteries with organic materials as promising electrodes |
| title_short |
Recent progress in multivalent metal (Mg, Zn, Ca, and Al) and metal-ion rechargeable batteries with organic materials as promising electrodes |
| title_full |
Recent progress in multivalent metal (Mg, Zn, Ca, and Al) and metal-ion rechargeable batteries with organic materials as promising electrodes |
| title_fullStr |
Recent progress in multivalent metal (Mg, Zn, Ca, and Al) and metal-ion rechargeable batteries with organic materials as promising electrodes |
| title_full_unstemmed |
Recent progress in multivalent metal (Mg, Zn, Ca, and Al) and metal-ion rechargeable batteries with organic materials as promising electrodes |
| title_sort |
recent progress in multivalent metal (mg, zn, ca, and al) and metal-ion rechargeable batteries with organic materials as promising electrodes |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/144099 |
| _version_ |
1772826780054323200 |