Translational dynamics of a non-degenerate molecular shuttle imbedded in a zirconium metal-organic framework

Benjamin H Wilson; Louae M Abdulla; Robert W Schurko; Stephen J Loeb

doi:10.1039/d0sc06837c

Translational dynamics of a non-degenerate molecular shuttle imbedded in a zirconium metal-organic framework

Chem Sci. 2021 Feb 2;12(11):3944-3951. doi: 10.1039/d0sc06837c.

Authors

Benjamin H Wilson¹, Louae M Abdulla¹, Robert W Schurko^{2

3}, Stephen J Loeb¹

Affiliations

¹ Department of Chemistry and Biochemistry, University of Windsor Windsor Ontario N9B 3P4 Canada loeb@uwindsor.ca.
² Department of Chemistry and Biochemistry, Florida State University Tallahassee FL 32306 USA.
³ National High Magnetic Field Laboratory Tallahassee FL 32310 USA.

Abstract

A new [2]rotaxane molecular shuttle linker based on the binding of a 24-crown-8 ether macrocycle at a benzimidazole recognition site was synthesised. The shuttling dynamics of the linker were studied in solution and the structure confirmed by X-ray crystallography. A multivariate Zr(iv) MOF, UWDM-11, containing the new MIM linker and primary linker tetramethylterphenyldicarboxylate was synthesised and the translational motion of the molecular shuttle studied in the solid state. The use of a ¹³C enriched MIM linker allowed the dynamics of both activated and mesitylene-solvated UWDM-11 to be elucidated by VT ¹³C CPMAS SSNMR. The incorporation of mesitylene into the pores of UWDM-11 resulted in a significant increase in the barrier for thermally driven translation of the macrocycle.