Phase-Controlled Electrochemical Activity of Epitaxial Mg-Spinel Thin Films

Phase-Controlled Electrochemical Activity of Epitaxial Mg-Spinel Thin Films

We report an approach to control the reversible electrochemical activity (i.e., extraction/insertion) of Mg2+ in a cathode host through the use of phase-pure epitaxially stabilized thin film structures. The epitaxially stabilized MgMn2O4 (MMO) thin films in the distinct tetragonal and cubic phases a...

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Veröffentlicht in:ACS applied materials & interfaces 2015-12, Vol.7 (51), p.28438-28443
Hauptverfasser: Feng, Zhenxing, Chen, Xiao, Qiao, Liang, Lipson, Albert L, Fister, Timothy T, Zeng, Li, Kim, Chunjoong, Yi, Tanghong, Sa, Niya, Proffit, Danielle L, Burrell, Anthony K, Cabana, Jordi, Ingram, Brian J, Biegalski, Michael D, Bedzyk, Michael J, Fenter, Paul
Format: Artikel
Sprache:eng
Schlagworte:
CONDENSED MATTER PHYSICS, SUPERCONDUCTIVITY AND SUPERFLUIDITY
epitaxial phase stabilization
Mg-spinel
multivalent insertion
phase-selective electrochemical activity
pulsed laser deposition
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Zusammenfassung:We report an approach to control the reversible electrochemical activity (i.e., extraction/insertion) of Mg2+ in a cathode host through the use of phase-pure epitaxially stabilized thin film structures. The epitaxially stabilized MgMn2O4 (MMO) thin films in the distinct tetragonal and cubic phases are shown to exhibit dramatically different properties (in a nonaqueous electrolyte, Mg­(TFSI)2 in propylene carbonate): tetragonal MMO shows negligible activity while the cubic MMO (normally found as polymorph at high temperature or high pressure) exhibits reversible Mg2+ activity with associated changes in film structure and Mn oxidation state. These results demonstrate a novel strategy for identifying the factors that control multivalent cation mobility in next-generation battery materials.
ISSN:1944-8244
1944-8252
DOI:10.1021/acsami.5b09346