# Heterobimetallic Uranium(V)-Alkali Metal Alkoxides: Expanding the Chemistry of f-Block Elements

**Authors:** Andreas Lichtenberg, Lidia Inderdühnen, Aida Lichtenberg, Sanjay Mathur

PMC · DOI: 10.3390/molecules30112361 · 2025-05-29

## TL;DR

This paper explores new uranium-alkali metal compounds and how their structures change based on the alkali metal used.

## Contribution

The study introduces novel heterobimetallic uranium(V) alkoxides and reveals how alkali metals influence their structural diversity.

## Key findings

- Alkali metal ions dictate the structural type of uranium alkoxides, from clusters to chains.
- Trans-alcoholysis with iso-propyl alcohol yields different nuclearities depending on the alkali metal.
- Compounds were characterized using NMR, IR, and X-ray diffraction for structural confirmation.

## Abstract

Heterobimetallic uranium(V) alkoxides incorporating monovalent alkali metal counterions display remarkable structural versatility, dictated by the steric demands of the alkoxide ligands and the ionic radius of the alkali metal. Compounds of the general formula [UM(OtBu)6] (UM-OtBu-type: M = Na, K, Rb, Cs) were obtained by: (i) reacting [U(OtBu)5(py)] with equimolar amounts of alkali metal silylamides in tert-butyl alcohol, and (ii) oxidative transformation of [UM2(OtBu)6] (M = Na, K, Rb, Cs) upon reaction with iodine. Trans-alcoholysis of uranium heterobimetallic tert-butoxides with sterically less demanding iso-propyl alcohol yields oligomeric or polymeric iso-propoxide derivatives of the general formula [UM(OiPr)6]n, where the nuclearity depends on the alkali metal (n = 2 for M = Li; n = ∞ for M = Na, K, Rb). The capacity of alkali metal ions to adopt flexible coordination geometries results in different structural types ranging from finite clusters to infinite chains, with [ULi(OiPr)6]2 (ULi-OiPr-1) found to be dimeric, whereas [UM(OiPr)6]∞ (UM-OiPr-2-type, M = Na, K) and [URb(OiPr)6]∞ (URb-OiPr-3) exhibit a polymeric architecture. These findings provide fresh insights into the structure-directing influence of alkali metals on actinide coordination chemistry and broaden the chemistry of actinide alkoxides. All compounds were unambiguously characterized in both solution and solid-state through NMR and IR spectroscopic studies, as well as single crystal X-ray diffraction analysis.

## Linked entities

- **Chemicals:** Uranium (PubChem CID 23989), tert-butyl alcohol (PubChem CID 6386), iodine (PubChem CID 807), iso-propyl alcohol (PubChem CID 3776)

## Full-text entities

- **Chemicals:** actinide (MESH:D008671), Cs (MESH:D002586), -butyl alcohol (MESH:D020001), Li (MESH:D008094), propyl alcohol (MESH:D000433), Na (MESH:D012964), U (MESH:D014501), Pr (MESH:D011221), Bu (MESH:D002066), Rb (MESH:D012413), Uranium(V)-Alkali Metal Alkoxides (-), alkali metal (MESH:D008672), O (MESH:D010100), /i (MESH:D007455), K (MESH:D011188)

## Figures

9 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12155610/full.md

---
Source: https://tomesphere.com/paper/PMC12155610