6533b86dfe1ef96bd12ca1ea

RESEARCH PRODUCT

Solvent-free synthesis of ZIFs: a route toward the elusive Fe(II) analogue of ZIF-8

Javier López-cabrellesJorge RomeroSusana ValenciaFernando ReyGonzalo AbellánGonzalo AbellánMiguel PalominoMónica Giménez-marquésGuillermo Mínguez Espallargas

subject

Zeolitic imidazolate frameworksStorage02 engineering and technologyOverpotential010402 general chemistryMetal-Organic frameworks01 natural sciencesBiochemistryCatalysischemistry.chemical_compoundColloid and Surface ChemistryImidazolateMaterialsThermal-StabilityTafel equationNanocompositeChemistryOxygen evolutionElectrocatalystsGeneral Chemistry021001 nanoscience & nanotechnology0104 chemical sciencesChemisorptionPhysical chemistryMetal-organic frameworkAdsorptionCristalls0210 nano-technologyOxygen evolutionZeolitic imidazolate framework

description

Herein we report the synthesis of an elusive metal-organic framework, the iron(II) analogue of ZIF-8 with the formula Fe(2-methylimidazolate) , here denoted as MUV-3. The preparation of this highly interesting porous material, inaccessible by common synthetic procedures, occurs in a solvent-free reaction upon addition of an easily detachable template molecule, yielding single crystals of MUV-3. This methodology can be extended to other metals and imidazolate derivatives, allowing the preparation of ZIF-8, ZIF-67, and the unprecedented iron(II) ZIFs Fe(2-ethylimidazolate) and Fe(2-methylbenzimidazolate) . The different performance of MUV-3 toward NO sorption, in comparison to ZIF-8, results from the chemisorption of NO molecules, which also causes a gate-opening behavior. Finally, the controlled pyrolysis of MUV-3 results in a N-doped graphitic nanocomposite that exhibits extraordinary performance for the oxygen evolution reaction (OER), with low overpotential at different current densities (316 mV at 10 mA cm ), low Tafel slope (37 mV per decade), high maximum current density (710 mA cm at 2.0 V vs RHE), and great durability (15 h). ©

yearjournalcountryeditionlanguage
2019-04-11
10.1021/jacs.9b02686https://hdl.handle.net/10550/74535