Zusammenfassung
The chemistry of 2-phosphaethynolate is burgeoning, but there remains much to learn about this ligand, for example its reduction chemistry is scarce as this promotes P-C-O fragmentations or couplings. Here, we report that reduction of [U(Tren(TIPS))(OCP)] (Tren(TIPS)=N(CH2CH2NSiPr3i)(3)) with KC8/2,2,2-cryptand gives [{U(Tren(TIPS))}(2){mu-eta(2)(OP):eta(2)(CP)-OCP}][K(2,2,2-cryptand)]. The ...
Zusammenfassung
The chemistry of 2-phosphaethynolate is burgeoning, but there remains much to learn about this ligand, for example its reduction chemistry is scarce as this promotes P-C-O fragmentations or couplings. Here, we report that reduction of [U(Tren(TIPS))(OCP)] (Tren(TIPS)=N(CH2CH2NSiPr3i)(3)) with KC8/2,2,2-cryptand gives [{U(Tren(TIPS))}(2){mu-eta(2)(OP):eta(2)(CP)-OCP}][K(2,2,2-cryptand)]. The coordination mode of this trapped 2-phosphaethynolate is unique, and derives from an unprecedented highly reduced and highly bent form of this ligand with the most acute P-C-O angle in any complex to date (P-C-O measured angle approximate to 127 degrees). The characterisation data support a mixed-valence diuranium(III/IV) formulation, where backbonding from uranium gives a highly reduced form of the P-C-O unit that is perhaps best described as a uranium-stabilised OCP2-. radical dianion. Quantum chemical calculations reveal that this gives unprecedented carbene character to the P-C-O unit, which engages in a weak donor-acceptor interaction with one of the uranium ions.
Altmetric