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High-performance aqueous rechargeable sulfate- and sodium-ion battery based on polypyrrole-MWCNT core-shell nanowires and Na0.44MnO2 nanorods
[Display omitted] •Novel aqueous rechargeable sulfate- and sodium-ion battery is demonstrated.•MWCNT-polypyrrole nanowire and Na0.44MnO2 nanorod are used as anode and cathode.•Full cell exhibits better performance at relatively high-rate charge-discharge. Aqueous rechargeable sodium-ion batteries (A...
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Published in: | Applied surface science 2018-07, Vol.446, p.131-138 |
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Main Authors: | , , , , |
Format: | Article |
Language: | English |
Subjects: | |
Citations: | Items that this one cites Items that cite this one |
Online Access: | Get full text |
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Summary: | [Display omitted]
•Novel aqueous rechargeable sulfate- and sodium-ion battery is demonstrated.•MWCNT-polypyrrole nanowire and Na0.44MnO2 nanorod are used as anode and cathode.•Full cell exhibits better performance at relatively high-rate charge-discharge.
Aqueous rechargeable sodium-ion batteries (ARSBs) have the potential for application in large-scale electric energy storage systems owing to the safety of the non-flammable aqueous electrolyte and the natural abundance of sodium resources. Herein, we demonstrate the high performance of an aqueous rechargeable sulfate- and sodium-ion battery based on a MWCNT-polypyrrole core–shell nanowire anode and a Na0.44MnO2 nanorod cathode in a 1 M aqueous Na2SO4 electrolyte. Because the charge-discharge process involves the simultaneous uptake and release of both sulfate anions and sodium cations, it offers a wider choice of electrode materials for use at high voltages. The MWCNT-polypyrrole core-shell nanowire//Na0.44MnO2 nanorod full cell delivered excellent discharge capacities of 99.2 mA h g−1 and 87.2 mA h g−1 with a high voltage of 1.6 V at the charge-discharge current densities of 100 mA g−1 and 3000 mA g−1, respectively. When compared with previous ARSBs, the aqueous rechargeable sulfate- and sodium-ion battery shows much better performance at relatively high charge–discharge rates, making it suitable for large-scale energy storage applications. |
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ISSN: | 0169-4332 1873-5584 |
DOI: | 10.1016/j.apsusc.2018.02.021 |