Journal
JOURNAL OF MATERIALS CHEMISTRY A
Volume 6, Issue 29, Pages 14420-14430Publisher
ROYAL SOC CHEMISTRY
DOI: 10.1039/c8ta03839b
Keywords
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Funding
- Russian Science Foundation [16-19-00190]
- Skolkovo Institute of Science and Technology [2016-1/NGP]
- Skoltech Center for Electrochemical Energy Storage
- Lomonosov Moscow State University
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In this paper, we report on a novel RbVPO4F fluoride phosphate, which adopts the KTiOPO4 (KTP) type structure and complements the AVPO(4)F (A = alkali metal) family of positive electrode (cathode) materials for metal-ion batteries. RbVPO4F was synthesized via a freeze-drying assisted solid-state route and characterized via structural, computational and electrochemical methods. RbVPO4F represents the first example of reversible electrochemical Rb+ de/insertion in a crystalline oxypolyanionic framework. The electrochemical measurements on RbVPO4F in a three-electrode cell configuration in RbClO4-saturated propylene carbonate (PC) electrolyte revealed that the material exhibits reversible Rb+ de/insertion within the 0.4-1.3 V vs. Ag+/Ag potential range (similar to 3.9-4.8 V vs. K+/K) displaying rather high diffusion coefficients of (0.3-1.0) x 10(-11) cm(2) s(-1) comparable to those of K+ in KVPO4F that supports reasonably fast ionic mobility in the KTP structure despite the large ionic radius of the Rb+ ions. The energy barriers of Rb+ ion transport are exceptionally low not exceeding 0.2 eV along the c-axis and correlating well with diffusion coefficients estimated using the DFT+U-NEB methodology and with the experimentally determined transport properties. These results suggest a new paradigm for the development of materials that support many monovalent ion reversible de/insertion processes in a single prototypical structural oxypolyanionic framework.
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