☆ 4.7 Article

Unlocking high-potential non-persistent radical chemistry for semi-aqueous redox batteries

CHEMICAL COMMUNICATIONS (2019)

Journal

CHEMICAL COMMUNICATIONS

Volume 55, Issue 15, Pages 2154-2157

Publisher

ROYAL SOC CHEMISTRY

DOI: 10.1039/c8cc09304k

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Funding

Australian Research Council [DP160103244]
UNSW Faculty of Engineering Start-up grant
UNSW Faculty Fellowship

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Abstract

A non-persistent radical precursor, N-hydroxyphthalimide (NHPI), is reported as a low-cost, high-potential organic cathode in a binary electrolyte for a semi-aqueous redox battery. A highly reversible NHPI-phthalimide N-oxyl (PINO) radical redox couple at +1.30 V-NHE is demonstrated, providing a 1.15 V rechargeable battery with an attractive >85% voltage efficiency when coupled with anthraquinone-2-sulfonic acid (AQS).

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Unlocking high-potential non-persistent radical chemistry for semi-aqueous redox batteries

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CHEMICAL COMMUNICATIONS

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ROYAL SOC CHEMISTRY

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Unlocking high-potential non-persistent radical chemistry for semi-aqueous redox batteries

Journal

CHEMICAL COMMUNICATIONS

Publisher

ROYAL SOC CHEMISTRY

Keywords

Categories

Funding

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