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Fluorine-free lithium-ion capacitor with enhanced sustainability and safety based on bio-based ƴ-Valerolactone and lithium bis(oxalato)borate electrolyte

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journal contribution
posted on 2025-01-08, 15:02 authored by Khai Shin Teoh, Massimo Melchiorre, Sandesh Darlami Magar, Marius Hermesdorf, Desirée Leistenschneider, Martin Oschatz, Francesco Ruffo, Juan Luis Gómez Urbano, Andrea Balducci

In this work, the properties of a novel electrolyte based on the combination of bio-based ƴ-valerolactone (GVL) solvent with lithium bis(oxalato)borate (LiBOB) salt and its use for lithium-ion capacitors (LICs) are presented. It is shown that the 1 m LiBOB in GVL electrolyte displays good transport properties, high thermal stability, and the ability to prevent anodic dissolution. Its impact on the performance of both battery-type and capacitive-type electrodes is evaluated. In this regard, special attention is paid to the filming properties associated with LiBOB and GVL decomposition at the electrode surfaces. To the best of the authors’ knowledge, the full-cell devices assembled in this study are the first example of a fluorine-free LIC. These devices exhibit a favorable energy-to-power ratio, delivering 80 Wh kg−1 AM at 10 000 W kg−1 AM along with excellent cycling stability, retaining 80% of the initial capacitance after 25 000 cycles. Furthermore, post-mortem analysis of the LIC electrodes is conducted to gain deeper insights into the degradation mechanisms within the device.

Funding

Composite Silicon/Graphite Anodes with Ni-Rich Cathodes and Safe Ether based Electrolytes for High Capacity Li-ion Batteries

European Commission

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History

Publication

Advanced Materials, 2024, 36, 2310056

Publisher

Wiley and Sons Ltd

Other Funding information

J.L.G.-U. and A.B. want to acknowledge the financial support of the European Union´s Horizon Europe transport program under the project SiGNE (grant agreement no. 101069738). K.S.T., S.D.M., and A.B. would like to thank the financial support from Deutsche Forschungsgemeinschaft (DFG) for project BA4956/24-1 (Forschungsgruppe FuncHeal FOR5301) and for project BA4956/211. M.M. and F.R. want to acknowledge the financial support from the Ministero Italiano dell’Istruzione dell’Università e della Ricerca provided through the “LABSolve” project (Progetti di Ricerca di Rilevante Interesse Nazionale—Bando 2022 Prot. 20229P7PPM). M.H. and D.L. would like to thank the German Chemical Industry Fund for the financial support through a Liebig Fellowship. M.O. would like to acknowledge the European Fonds for Regional Development (Europäischer Fonds für Regionale Entwicklung; EFRE-OP 2014–2020; project no. 2021 FGI 0035, NanoLabXPS). Open access funding enabled and organized by Projekt DEAL.

Also affiliated with

  • Bernal Institute
  • Horizon Europe SiGNE Project

Sustainable development goals

  • (9) Industry, Innovation and Infrastructure
  • (13) Climate Action