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Operando identification of the point of [Mn2]O4 spinel formation during γ-MnO2 discharge within batteries

Author(s): Gallaway, JW; Hertzberg, BJ; Zhong, Z; Croft, M; Turney, DE; et al

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Abstract: The rechargeability of γ-MnO2 cathodes in alkaline batteries is limited by the formation of the [Mn2]O4 spinels ZnMn2O4 (hetaerolite) and Mn3O4 (hausmannite). However, the time and formation mechanisms of these spinels are not well understood. Here we directly observe γ-MnO2 discharge at a range of reaction extents distributed across a thick porous electrode. Coupled with a battery model, this reveals that spinel formation occurs at a precise and predictable point in the reaction, regardless of reaction rate. Observation is accomplished by energy dispersive X-ray diffraction (EDXRD) using photons of high energy and high flux, which penetrate the cell and provide diffraction data as a function of location and time. After insertion of 0.79 protons per γ-MnO2 the α-MnOOH phase forms rapidly. α-MnOOH is the precursor to spinel, which closely follows. ZnMn2O4 and Mn3O4 form at the same discharge depth, by the same mechanism. The results show the final discharge product, Mn3O4 or Mn(OH)2, is not an intrinsic property of γ-MnO2. While several studies have identified Mn(OH)2 as the final γ-MnO2 discharge product, we observe direct conversion to Mn3O4 with no Mn(OH)2.
Publication Date: 30-Jul-2016
Citation: Gallaway, Joshua W., Benjamin J. Hertzberg, Zhong Zhong, Mark Croft, Damon E. Turney, Gautam G. Yadav, Daniel A. Steingart, Can K. Erdonmez, and Sanjoy Banerjee. "Operando identification of the point of [Mn2] O4 spinel formation during γ-MnO2 discharge within batteries." Journal of Power Sources 321 (2016): 135-142. doi: 10.1016/j.jpowsour.2016.05.002
DOI: doi:10.1016/j.jpowsour.2016.05.002
ISSN: 0378-7753
Pages: 135 - 142
Type of Material: Journal Article
Journal/Proceeding Title: Journal of Power Sources
Version: Author's manuscript

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