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A Microporous Heterovalent Copper–Organic Framework Based on [Cu<sub>2</sub>I]<sub><i>n</i></sub> and Cu<sub>2</sub>(CO<sub>2</sub>)<sub>4</sub> Secondary Building Units: High Performance for CO<sub>2</sub> Adsorption and Separation and Iodine Sorption and Release
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Citations
55
References
2018
Year
EngineeringPaddlewheel SbusOrganic ChemistryIodine SorptionChemistryHigh PerformanceCuxiy-based MofsChemical EngineeringMetal-organic PolyhedronCompound 1Materials ScienceInorganic ChemistryCovalent Bonded FrameworkCatalysisMetal-organic FrameworksInorganic SynthesisOrganic Material ChemistryFunctional MaterialsOrganic-inorganic Hybrid Material
A microporous heterovalent Cu-based MOF, [(Cu2I)Cu2L2(H2O)2]22+·2NO3–·5DMF (1) (H2L = 5-(4H-1,2,4-triazol-4-yl)benzene-1,3-dicarboxylic acid, DMF = N,N-dimethylformamide), has been successfully synthesized using the mixed secondary building unit (SBU) strategy. Compound 1 was constructed from [Cu2I]n chain and Cu2(CO2)4 paddlewheel SBUs and exhibited a new (3,4,4)-connected topology. Although compound 1 possesses moderate surface area, it exhibits better CO2 capture (91.9 cm3 g–1 at 273 K) and separation ability (selectivity for CO2 over CH4 = 8.2 under 1 bar at 298 K) than most of the reported CuxIy-based MOFs. Moreover, compound 1 is also a good candidate for the capture and release of iodine.
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