A novel porous tubular 1D-MOF, built from Cu(II), 1,2-bis(4-pyridyl)ethane and P,P′-diphenyl-diphosphinate, has been prepared by an easy and direct self-assembly process in either needle microcrystal or nanorod form depending on the synthesis conditions. The CO2 absorption kinetics drastically increased from the micrometric crystals to the nanorods. The selectivity towards other gases and polar solvents was also investigated. © 2012 The Royal Society of Chemistry.
Bataille, T., Bracco, S., Comotti, A., Costantino, F., Guerri, A., Ienco, A., et al. (2012). Solvent dependent synthesis of micro- and nano- crystalline phosphinate based 1D tubular MOF: structure and CO2 adsorption selectivity. CRYSTENGCOMM, 14(21), 70170-70173 [10.1039/C2CE26138C].
Solvent dependent synthesis of micro- and nano- crystalline phosphinate based 1D tubular MOF: structure and CO2 adsorption selectivity
BRACCO, SILVIA;COMOTTI, ANGIOLINA
;
2012
Abstract
A novel porous tubular 1D-MOF, built from Cu(II), 1,2-bis(4-pyridyl)ethane and P,P′-diphenyl-diphosphinate, has been prepared by an easy and direct self-assembly process in either needle microcrystal or nanorod form depending on the synthesis conditions. The CO2 absorption kinetics drastically increased from the micrometric crystals to the nanorods. The selectivity towards other gases and polar solvents was also investigated. © 2012 The Royal Society of Chemistry.
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