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Sustainable Cathodes for Lithium-Ion Energy Storage Devices Based on Tannic Acid—Toward Ecofriendly Energy Storage
Publikationstyp
Journal Article
Date Issued
2021
Sprache
English
Author(s)
Ilic, Ivan K.
Perovic, Milena
Hwang, Jinyeon
Heil, Tobias
Oschatz, Martin
Antonietti, Markus
Journal
Volume
5
Issue
1
Article Number
2000206
Citation
Advanced Sustainable Systems 5 (1): 2000206 (2021)
Publisher DOI
Scopus ID
The use of organic materials with reversible redox activity holds enormous potential for next-generation Li-ion energy storage devices. Yet, most candidates are not truly sustainable, i.e., not derived from renewable feedstock or made in benign reactions. Here an attempt is reported to resolve this issue by synthesizing an organic cathode material from tannic acid and microporous carbon derived from biomass. All constituents, including the redox-active material and conductive carbon additive, are made from renewable resources. Using a simple, sustainable fabrication method, a hybrid material is formed. The low cost and ecofriendly material shows outstanding performance with a capacity of 108 mAh g<sup>−1</sup> at 0.1 A g<sup>−1</sup> and low capacity fading, retaining approximately 80% of the maximum capacity after 90 cycles. With approximately 3.4 V versus Li<sup>+</sup>/Li, the cells also feature one of the highest reversible redox potentials reported for biomolecular cathodes. Finally, the quinone-catecholate redox mechanism responsible for the high capacity of tannic acid is confirmed by electrochemical characterization of a model compound similar to tannic acid but without catecholic groups.
Subjects
biomass
electrochemistry
energy storage
redox chemistry
sustainability
tannic acid
DDC Class
600: Technology