Please use this identifier to cite or link to this item: https://hdl.handle.net/10356/156833
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dc.contributor.authorLi, Leien_US
dc.contributor.authorZhang, Qichongen_US
dc.contributor.authorHe, Bingen_US
dc.contributor.authorPan, Ruien_US
dc.contributor.authorWang, Zhixunen_US
dc.contributor.authorChen, Mengxiaoen_US
dc.contributor.authorWang, Zheen_US
dc.contributor.authorYin, Kuiboen_US
dc.contributor.authorYao, Yagangen_US
dc.contributor.authorWei, Leien_US
dc.contributor.authorSun, Litaoen_US
dc.date.accessioned2022-05-05T01:14:06Z-
dc.date.available2022-05-05T01:14:06Z-
dc.date.issued2022-
dc.identifier.citationLi, L., Zhang, Q., He, B., Pan, R., Wang, Z., Chen, M., Wang, Z., Yin, K., Yao, Y., Wei, L. & Sun, L. (2022). Advanced multifunctional aqueous rechargeable batteries design: from materials and devices to systems. Advanced Materials, 34(5), 2104327-. https://dx.doi.org/10.1002/adma.202104327en_US
dc.identifier.issn0935-9648en_US
dc.identifier.urihttps://hdl.handle.net/10356/156833-
dc.description.abstractMultifunctional aqueous rechargeable batteries (MARBs) are regarded as safe, cost-effective, and scalable electrochemical energy storage devices, which offer additional functionalities that conventional batteries cannot achieve, which ideally leads to unprecedented applications. Although MARBs are among the most exciting and rapidly growing topics in scientific research and industrial development nowadays, a systematic summary of the evolution and advances in the field of MARBs is still not available. Therefore, the review presented comprehensively and systematically summarizes the design principles and the recent advances of MARBs by categories of smart ARBs and integrated systems, together with an analysis of their device design and configuration, electrochemical performance, and diverse smart functions. The two most promising strategies to construct novel MARBs may be A) the introduction of functional materials into ARB components, and B) integration of ARBs with other functional devices. The ongoing challenges and future perspectives in this research and development field are outlined to foster the future development of MARBs. Finally, the most important upcoming research directions in this rapidly developing field are highlighted that may be most promising to lead to the commercialization of MARBs and to a further broadening of their range of applications.en_US
dc.description.sponsorshipAgency for Science, Technology and Research (A*STAR)en_US
dc.description.sponsorshipMinistry of Education (MOE)en_US
dc.description.sponsorshipNational Research Foundation (NRF)en_US
dc.language.isoenen_US
dc.relationMOE2019-T2-2-127en_US
dc.relationMOE-T2EP50120-0002en_US
dc.relationA2083c0062en_US
dc.relationI2001E0067 (IAF-ICP)-P2.1)en_US
dc.relationRG90/19en_US
dc.relationRG73/19en_US
dc.relationNRF-CRP18-2017-02en_US
dc.relation.ispartofAdvanced Materialsen_US
dc.relation.uri10.21979/N9/B2XGYIen_US
dc.rightsThis is the peer reviewed version of the following article: Li, L., Zhang, Q., He, B., Pan, R., Wang, Z., Chen, M., Wang, Z., Yin, K., Yao, Y., Wei, L. & Sun, L. (2022). Advanced multifunctional aqueous rechargeable batteries design: from materials and devices to systems. Advanced Materials, 34(5), 2104327-, which has been published in final form at https://doi.org/10.1002/adma.202104327. This article may be used for non-commercial purposes in accordance with Wiley Terms and Conditions for Use of Self-Archived Versions.en_US
dc.subjectEngineering::Electrical and electronic engineeringen_US
dc.titleAdvanced multifunctional aqueous rechargeable batteries design: from materials and devices to systemsen_US
dc.typeJournal Articleen
dc.contributor.schoolSchool of Electrical and Electronic Engineeringen_US
dc.identifier.doi10.1002/adma.202104327-
dc.description.versionSubmitted/Accepted versionen_US
dc.identifier.pmid34693565-
dc.identifier.scopus2-s2.0-85117707186-
dc.identifier.issue5en_US
dc.identifier.volume34en_US
dc.identifier.spage2104327en_US
dc.subject.keywordsAqueous Electrolytesen_US
dc.subject.keywordsMultifunctional Fibersen_US
dc.description.acknowledgementThis work was supported by the Southeast University (Start-up grant 3206002103A1, 9S06001803, and 1106002103), the National Natural Science Foundation of China (51420105003 and 11525415), the financial supports from the Science and Technology Project of Jiangxi Province (20192BCD40017), the Singapore Ministry of Education Academic Research Fund Tier 2 (MOE2019-T2-2-127 and MOE-T2EP50120-0002), A*STAR under AME IRG (A2083c0062), A*STAR under IAF-ICP (I2001E0067 (IAF-ICP)-P2.1), the Singapore Ministry of Education Academic Research Fund Tier 1 (RG90/19 and RG73/19), and the Singapore National Research Foundation Competitive Research Program (NRF-CRP18-2017-02).en_US
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item.grantfulltextembargo_20230210-
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