Oxygen Reactions in a Non-Aqueous Li+ Electrolyte
Peng, Zhangquan and Freunberger, Stefan A. and Hardwick, Laurence J. and Chen, Yuhui and Giordani, Vincent and Barde, Fanny and Novak, Petr and Graham, Duncan and Tarascon, Jean-Marie and Bruce, Peter G. (2011) Oxygen Reactions in a Non-Aqueous Li+ Electrolyte. Agewandte Chemie-International Edition, 50 (28). pp. 6351-6355. ISSN 1521-3773 (https://doi.org/10.1002/anie.201100879)
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Oxygen (O2) reduction is one of the most studied reactions in chemistry.1 Widely investigated in aqueous media, O2 reduction in non-aqueous solvents, such as CH3CN, has been studied for several decades.2–7 Today, O2 reduction in non-aqueous Li+ electrolytes is receiving considerable attention because it is the reaction on which operation of the Li–air (O2) battery depends.8–29 The Li–O2 battery is generating a great deal of interest because theoretically its high energy density could transform energy storage.8, 9 As a result, it is crucial to understand the O2 reaction mechanisms in non-aqueous Li+ electrolytes. Important progress has been made using electrochemical measurements including recently by Laoire et al.29 No less than five different mechanisms for O2 reduction in Li+ electrolytes have been proposed over the last 40 years based on electrochemical measurements alone.25–29 The value of using spectroelectrochemical methods is that they can identify directly the species involved in the reaction. Here we present in situ spectroscopic data that provide direct evidence that LiO2 is indeed an intermediate on O2 reduction, which then disproportionates to the final product Li2O2. Spectroscopic studies of Li2O2 oxidation demonstrate that LiO2 is not an intermediate on oxidation, that is, oxidation does not follow the reverse pathway to reduction.
ORCID iDs
Peng, Zhangquan ORCID: https://orcid.org/0000-0002-3089-9577, Freunberger, Stefan A., Hardwick, Laurence J., Chen, Yuhui, Giordani, Vincent, Barde, Fanny, Novak, Petr, Graham, Duncan ORCID: https://orcid.org/0000-0002-6079-2105, Tarascon, Jean-Marie and Bruce, Peter G.;-
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Item type: Article ID code: 33648 Dates: DateEvent4 July 2011PublishedSubjects: Science > Chemistry > Physical and theoretical chemistry
Technology > Electrical engineering. Electronics Nuclear engineeringDepartment: Faculty of Engineering > Electronic and Electrical Engineering
Faculty of Science > Physics
Technology and Innovation Centre > Bionanotechnology
Faculty of Science > Pure and Applied ChemistryDepositing user: Pure Administrator Date deposited: 17 Oct 2011 13:10 Last modified: 21 Dec 2024 20:41 Related URLs: URI: https://strathprints.strath.ac.uk/id/eprint/33648