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Article Abstract
Finding more metal complexes with outstanding water stability and high proton conductivity still has important research significance for the energy field. Herein, two highly proton-conductive complexes, one hydrogen-bonded supramolecular framework (HSF) [Cd(CBIA)(HO)]·2HO () and one coordination polymer (CP), {[Cd(CBIA)(4,4'-bipy)(HO)]·(CBIA)·(OH)·2HO} () (4,4'-bipy = 4,4'-bipyridine), were triumphantly assembled using a zwitterionic organic compound, 2-(1-(carboxymethyl)-1-benzo[]imidazol-3-ium-3-yl)acetate (HCBIA). In the structure of HSF , there are several coordination and lattice HO units except for the two monodentate CBIA anions. CP with a one-dimensional (1D) cylindrical structure has free CBIA units and free HO units located in the cavity. Thanks to the ability of the uncoordinated carboxyl groups and coordination/lattice water molecules to construct the rich H-bonding networks, both complexes exhibit super-high proton conductivities, reaching 5.09 × 10 and 3.41 × 10 S cm under 100 °C/98% relative humidity (RH), respectively. Based on the exploration of crystal structure data, combined with the calculated activation energy, and adsorption/desorption plots of nitrogen and water vapor, the causes and differences in proton conductivity of the two complexes, especially the proton-conductive mechanism, are compared and analyzed. This study again confirms that the zwitterionic ligands can exert important effects on forming organo-inorganic hybrid materials with high proton conductivity.
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| http://dx.doi.org/10.1021/acs.inorgchem.2c03445 | DOI Listing |
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