Aqueous Zn-ion battery has developed as an alternative to overcome the limitations of conventional Li-ion batteries, but its application is insufficient due to low reversibility and electrochemical reliability. In this study, we developed a cathode for aqueous Zn-ion battery with improvement of reversibility and electrochemical reliability utilizing phthalocyanine (PTC) that efficiently transports metal ions and electrons. The intercalation/de-intercalation reaction of Zn2+ ions changes according to the central metal ligand ion of PTC, and iron (II) coordinated PTC exhibited the outstanding energy storage capacity (161.34 mAh/g) and electrochemical reliability (99%, 100 cycles). Based on maximized electrochemical performance and reliability, Zn-ion flexible battery was successfully demonstrated by utilizing air-spray coating.
Highly efficient phthalocyanine based aqueous Zn-ion flexible-batteries
Matteini, Paolo;
2022
Abstract
Aqueous Zn-ion battery has developed as an alternative to overcome the limitations of conventional Li-ion batteries, but its application is insufficient due to low reversibility and electrochemical reliability. In this study, we developed a cathode for aqueous Zn-ion battery with improvement of reversibility and electrochemical reliability utilizing phthalocyanine (PTC) that efficiently transports metal ions and electrons. The intercalation/de-intercalation reaction of Zn2+ ions changes according to the central metal ligand ion of PTC, and iron (II) coordinated PTC exhibited the outstanding energy storage capacity (161.34 mAh/g) and electrochemical reliability (99%, 100 cycles). Based on maximized electrochemical performance and reliability, Zn-ion flexible battery was successfully demonstrated by utilizing air-spray coating.| File | Dimensione | Formato | |
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Matteini_529481_ELSEVIER_OA_POSTPRINT.pdf
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Descrizione: This is the Author Accepted Manuscript (postprint) version of the following paper: Hwang, Byungil, Cheong, Jun Young, Matteini, Paolo, Yun, Tae Gwang, "Highly efficient phthalocyanine based aqueous Zn-ion flexible-batteries", in MATERIALS LETTERS, vol. 306, 2022, https://dx.doi.org/10.1016/j.matlet.2021.130954
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