High Proton Conductivity and Spectroscopic Investigations of Metal–Organic Framework Materials Impregnated by Strong Acids

Strong toluenesulfonic and triflic acids were incorporated into a MIL-101 chromium(III) terephthalate coordination framework, producing hybrid proton-conducting solid electrolytes. These acid@MIL hybrid materials possess stable crystalline structures that do not deteriorate during multiple measureme...

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Bibliographic Details
Published in:ACS applied materials & interfaces 2014-04, Vol.6 (7), p.5161-5167
Main Authors: Dybtsev, Danil N, Ponomareva, Valentina G, Aliev, Sokhrab B, Chupakhin, Alexei P, Gallyamov, Marsel R, Moroz, Nikolay K, Kolesov, Boris A, Kovalenko, Konstantin A, Shutova, Elena S, Fedin, Vladimir P
Format: Article
Language:English
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Summary:Strong toluenesulfonic and triflic acids were incorporated into a MIL-101 chromium(III) terephthalate coordination framework, producing hybrid proton-conducting solid electrolytes. These acid@MIL hybrid materials possess stable crystalline structures that do not deteriorate during multiple measurements or prolonged heating. Particularly, the triflic-containing compound demonstrates the highest 0.08 S cm–1 proton conductivity at 15% relative humidity and a temperature of 60 °C, exceeding any of today’s commercial materials for proton-exchange membranes. The structure of the proton-conducting media, as well as the long-range proton-transfer mechanics, was unveiled, in a certain respect, by Fourier transform infrared and 1H NMR spectroscopy investigations. The acidic media presumably constitutes large separated droplets, coexisting in the MIL nanocages. One component of proton transfer appears to be related to the facile relay (Grotthuss) mechanism through extensive hydrogen-bonding interactions within such droplets. The second component occurs during continuous reorganization of the droplets, thus ensuring long-range proton transfer along the porous structure of the material.
ISSN:1944-8244
1944-8252
DOI:10.1021/am500438a