Superionic Conduction over a Wide Temperature Range in a Metal–Organic Framework Impregnated with Ionic Liquids

Superionic Conduction over a Wide Temperature Range in a Metal–Organic Framework Impregnated with Ionic Liquids

Most molecules in confined spaces show markedly different behaviors from those in the bulk. Large pores are composed of two regions: an interface region in which liquids interact with the pore surface, and a core region in which liquids behave as bulk. The realization of a highly mobile ionic liquid...

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Veröffentlicht in:Angewandte Chemie International Edition 2019-08, Vol.58 (32), p.10909-10913
Hauptverfasser: Yoshida, Yukihiro, Fujie, Kazuyuki, Lim, Dae‐Woon, Ikeda, Ryuichi, Kitagawa, Hiroshi
Format: Artikel
Sprache:eng
Schlagworte:
Conduction
Conduction heating
Conductivity
Conductors
Confined spaces
Electrochemistry
Electrolytes
Ionic liquids
Ions
Low temperature
mesopores
Metal-organic frameworks
Metals
Molten salt electrolytes
Solid electrolytes
superionic conductors
Temperature
Temperature effects
Thermal conductivity
X-ray diffraction
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Zusammenfassung:Most molecules in confined spaces show markedly different behaviors from those in the bulk. Large pores are composed of two regions: an interface region in which liquids interact with the pore surface, and a core region in which liquids behave as bulk. The realization of a highly mobile ionic liquid (IL) in a mesoporous metal–organic framework (MOF) is now reported. The hybrid shows a high room‐temperature conductivity (4.4×10−3 S cm−1) and low activation energy (0.20 eV); both not only are among the best values reported for IL‐incorporated MOFs but also are classified as a superionic conductor. The conductivity reaches over 10−2 S cm−1 above 343 K and follows the Vogel–Fulcher–Tammann equation up to ca. 400 K. In particular, the hybrid is advantageous at low temperatures (
ISSN:1433-7851
1521-3773
DOI:10.1002/anie.201903980