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Tuning Reactivities of <i>tert</i>‐Butyllithium by the Addition of Stoichiometric Amounts of Tetrahydrofuran

Johannes Kleinheider, Tobias Schrimpf, Rebecca Scheel, Tristan Mairath, A. M. Hermann, K. Knepper, Carsten Strohmann

2024Chemistry - A European Journal11 citationsDOIOpen Access PDF

Abstract

In alkyllithium chemistry the highest reactivity has historically been linked to the smallest degree of aggregation possible. Since tert-butyllithium is known to form a monomer in tetrahydrofuran solution, using just stoichiometric amounts of the lewis base to selectively form a dimeric species seemed irrational. In this study, we showed a considerable increase of the reactivity of t-BuLi when using stoichiometric amounts of THF in the non-polar solvent n-pentane in order to enable the deprotonation of simple methyl silanes and other low C-H-acidic substrates. In this context, we were able to obtain the corresponding aggregates of t-BuLi with the ligand THF in suspension and as crystalline solids and investigate them by single crystal X-ray structural analysis, in situ FTIR spectroscopy and quantum chemical calculations. Furthermore, we were able to explain the enhanced reactivity of t-BuLi with stoichiometric amounts of THF on the basis of structural features of the bridged dimer obtained under these conditions. With these findings, we present a new target in the aggregation of alkyllithium reagents: the selectively formed "frustrated" aggregates!

Topics & Concepts

TetrahydrofuranStoichiometryButyllithiumChemistryOrganic chemistrySolventCoordination Chemistry and OrganometallicsAsymmetric Synthesis and CatalysisInorganic and Organometallic Chemistry
Tuning Reactivities of <i>tert</i>‐Butyllithium by the Addition of Stoichiometric Amounts of Tetrahydrofuran | Litcius