Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
1328221 | Journal of Organometallic Chemistry | 2007 | 8 Pages |
The thermodynamics of ion pair symmetrization in a series of metallocenium species generated from Cp2″ZrMe2(Cp″=1,2-Me2C5H3) were studied using a variety of solution dynamic techniques including line broadening, 2D-EXSY, and 1D-DPFGSE-NOE. Ion pairs were generated by methide abstraction using the corresponding trityl salts [1-A] to yield [Cp2″ZrMe]+[A]- (A = {C6F4-1,2-[B(C6F5)2]2(μ-O(C6F5))}−, 2-O(C6F5); {C6F4-1,2-[B(C6F5)2]2(μ-OPh)}−, 2-OPh; {C6F4-1,2-[B(C6F5)2]2(μ-OMe)}−, 2-OMe; and [B(C6F5)4]−, 2-B(C6F5)4). The observed activation parameters were interpreted on the basis of a solvent-assisted mechanism of ion pair symmetrization.
Graphical abstractThe thermodynamics of ion pair symmetrization in a series of metallocenium species generated from Cp2″ZrMe2(Cp″=1,2-Me2C5H3) were studied using a variety of dynamic NMR techniques.Figure optionsDownload full-size imageDownload as PowerPoint slide