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Selective oxo ligand functionalisation and substitution reactivity in an oxo/catecholate-bridged UIV/UIV Pacman complex.


ABSTRACT: The oxo- and catecholate-bridged UIV/UIV Pacman complex [{(py)UIVOUIV(?-O2C6H4)(py)}(LA)] A (LA = a macrocyclic "Pacman" ligand; anthracenylene hinge between N4-donor pockets, ethyl substituents on meso-carbon atom of each N4-donor pocket) featuring a bent UIV-O-UIV oxo bridge readily reacts with small molecule substrates to undergo either oxo-atom functionalisation or substitution. Complex A reacts with H2O or MeOH to afford [{(py)UIV(?-OH)2UIV(?-O2C6H4)(py)}(LA)] (1) and [{(py)UIV(?-OH)(?-OMe)UIV(?-O2C6H4)(py)}(LA)] (2), respectively, in which the bridging oxo ligand in A is substituted for two bridging hydroxo ligands or one bridging hydroxo and one bridging methoxy ligand, respectively. Alternatively, A reacts with either 0.5 equiv. of S8 or 4 equiv. of Se to provide [{(py)UIV(?-?2:?2-E2)UIV(?-O2C6H4)(py)}(LA)] (E = S (3), Se (4)) respectively, in which the [E2]2- ion bridges the two UIV centres. To the best of our knowledge, complex A is the first example of either a d- or f-block bimetallic ?-oxo complex that activates elemental chalcogens. Complex A also reacts with XeF2 or 2 equiv. of Me3SiCl to provide [{(py)UIV(?-X)2UIV(?-O2C6H4)(py)}(LA)] (X = F (5), Cl (6)), in which the oxo ligand has been substituted for two bridging halido ligands. Reacting A with either XeF2 or Me3SiCl in the presence of O(Bcat)2 at room temperature forms [{(py)UIV(?-X)(?-OBcat)UIV(?-O2C6H4)(py)}(LA)] (X = F (5A), Cl (6A)), which upon heating to 80 °C is converted to 5 and 6, respectively. In order to probe the importance of the bent UIV-O-UIV motif in A on the observed reactivity, the bis(boroxido)-UIV/UIV complex, [{(py)(pinBO)UIVOUIV(OBpin)(py)}(LA)] (B), featuring a linear UIV-O-UIV bond angle was treated with H2O and Me3SiCl. Complex B reacts with two equiv. of either H2O or Me3SiCl to provide [{(py)HOUIVOUIVOH(py)}(LA)] (7) and [{(py)ClUIVOUIVCl(py)}(LA)] (8), respectively, in which reactions occur preferentially at the boroxido ligands, with the ?-oxo ligand unchanged. The formal UIV oxidation state is retained in all of the products 1-8, and selective reactions at the bridging oxo ligand in A is facilitated by: (1) its highly nucleophilic character which is a result of a non-linear UIV-O-UIV bond angle causing an increase in U-O bond covalency and localisation of the lone pairs of electrons on the ?-oxo group, and (2) the presence of the bridging catecholate ligand, which destabilises a linear oxo-bridging geometry and stabilises the resulting products.

SUBMITTER: Cowie BE 

PROVIDER: S-EPMC7499863 | biostudies-literature | 2020 Jul

REPOSITORIES: biostudies-literature

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Selective oxo ligand functionalisation and substitution reactivity in an oxo/catecholate-bridged U<sup>IV</sup>/U<sup>IV</sup> Pacman complex.

Cowie Bradley E BE   Douair Iskander I   Maron Laurent L   Love Jason B JB   Arnold Polly L PL  

Chemical science 20200612 27


The oxo- and catecholate-bridged U<sup>IV</sup>/U<sup>IV</sup> Pacman complex [{(py)U<sup>IV</sup>OU<sup>IV</sup>(μ-O<sub>2</sub>C<sub>6</sub>H<sub>4</sub>)(py)}(L<sup>A</sup>)] <b>A</b> (L<sup>A</sup> = a macrocyclic "Pacman" ligand; anthracenylene hinge between N<sub>4</sub>-donor pockets, ethyl substituents on <i>meso</i>-carbon atom of each N<sub>4</sub>-donor pocket) featuring a bent U<sup>IV</sup>-O-U<sup>IV</sup> oxo bridge readily reacts with small molecule substrates to undergo either o  ...[more]

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