Uranyl Naphthylsalophen and Pyrasal Complexes: Oxo Ligands Acting as Hydrogen Bond Acceptors in the Solid State

Dylan M Tharp Eralie; Ethan A Hiti; Dev T Bhakta; Justin A Williamson; John D Gorden; Serhii Vasylevskyi; Anne E V Gorden

doi:10.1021/acs.inorgchem.4c02843

Uranyl Naphthylsalophen and Pyrasal Complexes: Oxo Ligands Acting as Hydrogen Bond Acceptors in the Solid State

Inorg Chem. 2024 Dec 19. doi: 10.1021/acs.inorgchem.4c02843. Online ahead of print.

Authors

Dylan M Tharp Eralie¹, Ethan A Hiti¹, Dev T Bhakta¹, Justin A Williamson¹, John D Gorden¹, Serhii Vasylevskyi¹, Anne E V Gorden¹

Affiliation

¹ Texas Tech University, Department of Chemistry and Biochemistry, Lubbock, Texas, United States, 79401.

PMID: 39700044
DOI: 10.1021/acs.inorgchem.4c02843

Abstract

Uranium is most stable when it is exposed to oxygen or water in its +6 oxidation state as the uranyl (UO₂²⁺) ion. This ion is subsequently particularly stable and very resistant to functionalization due to the inverse trans effect. Uranyl oxo ligands are typically not considered good hydrogen bond acceptors due to their weak Lewis basicity; however, the ligands bound in the equatorial plane greatly affect the strength of the oxo ligands' hydrogen bonding. In this work, new naphthylsalophen and pyrasal complexes of uranium were synthesized and crystallized for characterization in the solid state. The bond lengths and angles of the uranyl ion and the ligand conformation are compared. In the solid state, one of the pyrasal complexes showed a hydrogen bond directly from a water molecule to the uranyl oxo ligand, which resulted in an asymmetric lengthening of the U-O_yl bonds from 1.789 to 1.862 Å and 1.784 to 1.844 Å.