H. W. Vos scite author profile

The absorption and fluorescence spectra of the carbanion of indene have been recorded as a function of temperature, solvent and counter ion. In ethereal solvents indenyl-lithium forms contact and solvent-separated ion pairs, depending on the temperature, whereas only contact ion pairs occur when Na+ and K+ are the counter ions. The absorption spectra exhibit a blue shift on formation of contact ion pairs, but in the fluorescence spectra a red shift is observed.The results for the indenyl anion are compared with those for the carbanion of fluorene and the anion of carbazole. The differences in cation-anion attraction and fluorescence shift are discussed with the aid of energy level diagrams, and it is concluded that these differences are ultimately determined by the r-electron charge distribution of the anion in the ground and first excited states. Theoretically calculated charge densities conflrm this conclusion ; an exception is the carbazolyl anion, where the nitrogen lone pair electrons play an important role, leading to the formation of a o-complex.The structures of the contact ion pairs of the two carbanions indenyl and Auorenyl in the ground and first excited states are inferred from the calculations. An apparent discrepancy with proton n.m.r. results is resolved by a theoretical examination of the effects of the cationic field on the proton chemical shifts.

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The NMR spectra of the carbanions of xanthene and thioxanthene. Evidence for paratropism

Vos

Bakker

MacLean

et al. 1974

Org. Magn. Reson.

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H. W. Vos

On the electron temperatures and densities in plasmas produced by the “torche à injection axiale”

On the atomic state densities of plasmas produced by the “torche à injection axiale”

A spectroscopic study of carbanions and corresponding nitranions: ion pair formation in the ground state and the first excited state

Structure of contact ion pairs in the ground and first excited states. Aromatic closed-shell anions containing a five-membered ring

The NMR spectra of the carbanions of xanthene and thioxanthene. Evidence for paratropism

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