Guanidinophosphazenes: Design, Synthesis, and Basicity in THF and in the Gas Phase

Abstract

A principle for creating a new generation of nonionic superbases is presented. It is based on attachment of tetraalkylguanidino, 1,3-dimethylimidazolidine-2-imino, or bis(tetraalkylguanidino)carbimino groups to the phosphorus atom of the iminophosphorane group using tetramethylguanidine or easily available 1,3-dimethylimidazolidine-2-imine. Seven new nonionic superbasic phosphazene bases, tetramethylguanidino-substituted at the P atom, have been synthesized. Their base strengths are established in tetrahydrofuran (THF) solution by means of spectrophotometric titration and compared with those of eight reference superbases designed specially for this study, P₂- and P₄-iminophosphoranes. The gas-phase basicities of several guanidino- and N‘,N‘,N‘ ‘,N‘ ‘-tetramethylguanidino (tmg)-substituted phosphazenes and their cyclic analogues are calculated, and the crystal structures of (tmg)₃PN-t-Bu and (tmg)₃PN-t-Bu·HBF₄ are determined. The enormous basicity-increasing effect of this principle is experimentally verified for the tetramethylguanidino groups in the THF medium: the basicity increase when moving from (dma)₃PN-t-Bu (pK_α = 18.9) to (tmg)₃PN-t-Bu (pK_α = 29.1) is 10 orders of magnitude. A significantly larger basicity increase (up to 20 powers of 10) is expected (based on the high-level density functional theory calculations) to accompany the similar gas-phase transfer between the (dma)₃PNH and (tmg)₃PNH bases. Far stronger basicities still are expected when, in the latter two compounds, all three dimethylamino (or tetramethylguanidino) fragments are replaced by methylated triguanide fragments, (tmg)₂CN. The gas-phase basicity (around 300−310 kcal/mol) of the resulting base, [(tmg)₂CN]₃PNH, having only one phosphorus atom, is predicted to exceed the basicity of (dma)₃PNH by more than 40 powers of 10 and to surpass also the basicity of the widely used commercial [(dma)₃PN]₃PN-t-Bu (t-BuP₄) superbase.