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Structure of the Polymer Backbones in polyMOF Materials

Paulo G. M. Mileo, Shichen Yuan, Sergio Ayala, Pu Duan, Rocío Semino, Seth M. Cohen, Klaus Schmidt‐Rohr, Guillaume Maurin

2020Journal of the American Chemical Society37 citationsDOIOpen Access PDF

Abstract

The molecular connectivity of polymer−metal−organic framework (polyMOF) hybrid materials was investigated using density functional theory calculations and solid-state NMR spectroscopy. The architectural constraints that dictate the formation of polyMOFs were assessed by examining poly(1,4-benzenedicarboxylic acid) (pbdc) polymers in two archetypical MOF lattices (UiO-66 and IRMOF-1). Modeling of the polyMOFs showed that in the IRMOF-1-type lattice, six, seven, and eight methylene (−CH 2 −) groups between 1,4-benzenedicarboxylate (terephthalate, bdc 2– ) units can be accommodated without significant distortions, while in the UiO-66-type lattice, an optimal spacing of seven methylene groups between bdc 2– units is needed to minimize strain. Solid-state NMR supports these predictions and reveals pronounced spectral differences for the same polymer in the two polyMOF lattices. With seven methylene groups, polyUiO-66-7a shows 7 ± 3% of uncoordinated terephthalate linkers, while these are undetectable (<4%) in the corresponding polyIRMOF-1-7a. In addition, NMR-detected backbone mobility is significantly higher in the polyIRMOF-1-7a than in the corresponding polyUiO-66-7a, again indicative of taut chains in the latter.

Topics & Concepts

MethyleneChemistryPolymerSolid-stateDensity functional theoryLattice (music)MoleculeCrystallographyNuclear magnetic resonance spectroscopySpectroscopySolid-state nuclear magnetic resonancePolymer chemistryStereochemistryComputational chemistryOrganic chemistryPhysical chemistryNuclear magnetic resonancePhysicsQuantum mechanicsAcousticsMetal-Organic Frameworks: Synthesis and ApplicationsAdvanced NMR Techniques and ApplicationsMagnetism in coordination complexes
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