Dinitrogen cleavage by a dinuclear uranium(III) complex

Understanding the role of multimetallic cooperativity and of alkali ion-binding in the second coordination sphere is important for the design of complexes that can promote dinitrogen (N-2) cleavage and functionalization. Herein, we compare the reaction products and mechanism of N-2 reduction of the previously reported K-2-bound dinuclear uranium(III) complex, [K-2{[U-III(OSi((OBu)-Bu-t)(3))(3)](2)(mu-O)}], B, with those of the analogous dinuclear uranium(III) complexes, [K(2.2.2-cryptand)][K{U-III(OSi((OBu)-Bu-t)(3))(3)}(2)(mu-O)], 1, and [K(2.2.2-cryptand)](2)[{U-III(OSi((OBu)-Bu-t)(3))(3)}(2)(mu-O)], 2, where one or two K+ ions have been removed from the second coordination sphere by addition of 2.2.2-cryptand. In this study, we found that the complete removal of the K+ ions from the inner coordination sphere leads to an enhanced reducing ability, as confirmed by cyclic voltammetry studies, of the resulting complex 2, and yields two new species upon N-2 addition, namely the U(III)/U(IV) complex, [K(2.2.2-cryptand)][{U-III(OSi((OBu)-Bu-t)(3))(3)}(mu-O){U-IV(OSi((OBu)-Bu-t)(3))(3)}], 3, and the N-2 cleavage product, the bis-nitride, terminal-oxo complex, [K(2.2.2-cryptand)](2)[{U-V(OSi((OBu)-Bu-t)(3))(3)}(mu-N)(2){U-VI(OSi((OBu)-Bu-t)(3))(2)(kappa-O)}], 4. We propose that the formation of these two products involves a tetranuclear uranium-N-2 intermediate that can only form in the absence of coordinated alkali ions, resulting in a six-electron transfer and cleavage of N-2, demonstrating the possibility of a three-electron transfer from U(III) to N-2. These results give an insight into the relationship between alkali ion binding modes, multimetallic cooperativity and reactivity, and demonstrate how these parameters can be tuned to cleave and functionalize N-2.

Automated summary

Understanding the importance of multimetallic cooperativity and alkali ion-binding in the second coordination sphere is crucial for the design of complexes that can facilitate the cleavage and functionalization of dinitrogen (N-2) molecules. In this study, the reaction products and mechanism of N-2 reduction were compared for different uranium(III) complexes with and without alkali ion binding. It was found that the removal of alkali ions enhanced the reducing ability of the complex and led to the formation of new species. Furthermore, the formation of a tetranuclear uranium-N-2 intermediate was proposed, demonstrating the possibility of a three-electron transfer from U(III) to N-2.