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  4. Investigating mechanisms underlying elevated-temperature-induced capacity fading of aqueous MnO2 polymorph supercapacitors: Cryptomelane and birnessite
 
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Investigating mechanisms underlying elevated-temperature-induced capacity fading of aqueous MnO2 polymorph supercapacitors: Cryptomelane and birnessite

Journal
Journal of the Electrochemical Society
Journal Volume
162
Journal Issue
5
Pages
A5106-A5114
Date Issued
2015
Author(s)
Pan H.-A.
Ghodbane O.
Weng Y.-T.
Sheu H.-S.
Lee J.-F.
Favier F.
Wu N.-L.  
DOI
10.1149/2.0171505jes
URI
https://scholars.lib.ntu.edu.tw/handle/123456789/409026
URL
https://www.scopus.com/inward/record.uri?eid=2-s2.0-84924352129&doi=10.1149%2f2.0171505jes&partnerID=40&md5=c12b7368bf230d255a9472f871a0e245
Abstract
The effects of elevated operating temperature on the charge-storage capacity fading of two MnO2 polymorph pseudocapacitive electrodes, namely cryptomelane and birnessite, in an aqueous K2SO4 electrolyte were investigated. These two polymorphs have been shown to exhibit markedly different volume expansion and contraction behaviors during cycling. An increase in the cycling temperature from 25 to 50¢XC dramatically increased the fading rate for both the electrodes, but the underlying mechanisms were different. For the cryptomelane electrode, in which the MnO2 structure exhibits negligible volume variations during cycling, an increase in the operating temperature increased the irreversible structural distortion that originated from the Jahn-Teller distortion of MnO6 octahedra. The structural distortion hindered the redox reactions involving K+ intercalation into the MnO2 lattice and led to a significant increase in charge-transfer resistance at the solid-electrolyte interface, thus accelerating capacity fading. For the birnessite electrode, cycling produced a marked increase in the electrical resistivity of active layer. This resistivity increase is attributable to the large cyclic volume variations in the birnessite structure, which cause debonding of binder with the constituent particles of the electrode. Accelerated capacity fading resulting from an increased operating temperature is attributed to deteriorating mechanical strength of the binder with increasing temperature. ? The Author(s) 2015. Published by ECS.
Type
journal article

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