Charge storage mechanism of MnO2 cathodes in Zn/MnO2 batteries using ionic liquid-based gel polymer electrolytes

Cathode reactions in Zn/MnO2 batteries using aqueous electrolytes have been usually interpreted by the reduction of Mn4+ to Mn3+ while protons and/or cations penetrate inside the cathode. However, until now, the MnO2 storage charge mechanism using a non-aqueous gel polymer electrolyte (GPE) has not...

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Published inElectrochemistry communications Vol. 60; pp. 190 - 194
Main Authors Tafur, Juan P., Abad, José, Román, Elisa, Fernández Romero, Antonio J.
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.11.2015
Subjects
Ionic liquid-based gel polymer electrolytes
MnO2 cathode
XPS
Zinc batteries
MnO2 cathode
XPS
Ionic liquid-based gel polymer electrolytes
Zinc batteries
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Abstract Cathode reactions in Zn/MnO2 batteries using aqueous electrolytes have been usually interpreted by the reduction of Mn4+ to Mn3+ while protons and/or cations penetrate inside the cathode. However, until now, the MnO2 storage charge mechanism using a non-aqueous gel polymer electrolyte (GPE) has not been investigated. In this work, ionic liquid-based GPEs including BMIM Tf and ZnTf2 have been employed in Zn/MnO2 batteries. Different states of charge of MnO2 cathodes used in Zn/IL-GPE/MnO2 batteries have been analyzed by XPS and EDX techniques. XPS analysis showed that Mn4+ is reduced during the discharge process at the same time as Zn2+ cations are incorporated into the cathode. Besides, Zn2+ cations insertion is accompanied by triflate anions. [Display omitted] •MnO2 charge storage mechanism in a Zn/IL-GPE/MnO2 battery is analyzed.•XPS analysis demonstrated that Mn4+ is reduced to Mn2+ during discharging.•Zn2+ cations are incorporated into the cathode accompanied by triflate anions.•Mn2+ species are expulsed to the GPE during the discharge process.
AbstractList Cathode reactions in Zn/MnO2 batteries using aqueous electrolytes have been usually interpreted by the reduction of Mn4+ to Mn3+ while protons and/or cations penetrate inside the cathode. However, until now, the MnO2 storage charge mechanism using a non-aqueous gel polymer electrolyte (GPE) has not been investigated. In this work, ionic liquid-based GPEs including BMIM Tf and ZnTf2 have been employed in Zn/MnO2 batteries. Different states of charge of MnO2 cathodes used in Zn/IL-GPE/MnO2 batteries have been analyzed by XPS and EDX techniques. XPS analysis showed that Mn4+ is reduced during the discharge process at the same time as Zn2+ cations are incorporated into the cathode. Besides, Zn2+ cations insertion is accompanied by triflate anions. [Display omitted] •MnO2 charge storage mechanism in a Zn/IL-GPE/MnO2 battery is analyzed.•XPS analysis demonstrated that Mn4+ is reduced to Mn2+ during discharging.•Zn2+ cations are incorporated into the cathode accompanied by triflate anions.•Mn2+ species are expulsed to the GPE during the discharge process.
Author Fernández Romero, Antonio J.
Abad, José
Román, Elisa
Tafur, Juan P.
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Keywords MnO2 cathode
XPS
Ionic liquid-based gel polymer electrolytes
Zinc batteries
Language English
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Snippet Cathode reactions in Zn/MnO2 batteries using aqueous electrolytes have been usually interpreted by the reduction of Mn4+ to Mn3+ while protons and/or cations...
SourceID elsevier
SourceType Publisher
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SubjectTerms Ionic liquid-based gel polymer electrolytes
MnO2 cathode
XPS
Zinc batteries
Title Charge storage mechanism of MnO2 cathodes in Zn/MnO2 batteries using ionic liquid-based gel polymer electrolytes
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