Porous Lanthanide–Organic Frameworks: Control over Interpenetration, Gas Adsorption, and Catalyst Properties

Abstract

Two isomorphous lanthanide–organic frameworks, Ln(BDC)1.5(DMF)(H2O) (Ln = Er (1), Tm (2)) have been synthesized based on 1,4-benzenedicarboxylic acid (H2BDC). Because of the 2-fold interpenetration, the pores are partly blocked and there are no significant gas adsorptions for these two interpenetrating nets. Through control over interpenetration by applying an organic ligand with hindrance groups or replacing coordinated solvent molecules with a chelating ligand, three non-interpenetrating lanthanide–organic frameworks, Er2(BDC)3(phen)2·3H2O (3), Tm(TBDC)1.5(DMF)(H2O)·2H2O (4), Er2(TBDC)3(phen)2·4DMF·2H2O (5), possessing the same topology with 1 and 2, have been synthesized and characterized. Further changing reaction conditions, three other porous lanthanide–organic frameworks with different structures with 1–5, Tm(BDC)1.5(H2O)·0.5DMF·C2H5OH·2H2O (6), Tm4(BDC)6(H2O)2(DMF)(C2H5OH)·2DMF·2H2O (7), and Sm(TBDC)1.5(phen)(H2O)·DMF·H2O (8), have been constructed. Gas sorption measurements for 5, 6, 7, and 8 hav...