Energy of the quasi-free electrons and the probability of electron localization in liquid hydrocarbons

Photoinjection experiments show that the energy Ve of the quasi-free electron in methane is negative at all densities from the dilute gas to the solid with a minimum roughly coinciding with the mobility maGrmtm\_ The results are in qualitative agreement with the Springett-Jortner-Cohen model and wit

We provide an estimate of the energy of the bottom of the conduction band in golid Ne and consider the implications of this result for electron localization ia liquid Ne. The energy, Vo , of the quasi-free electron state [l] in the bottom of the conduction band and of a non-polar dense fluid or a si

The quasi-ballistic model of transport, recently introduced by the author (Chem. Phys. Letters 207 (1993) 245), has been applied to eleven hydrocarbon liquids in which the electron mobility is less than 10 cm 2 V-~ s-1. In all cases except benzene a combination of a trap density ~ 1019 cm-3 and a qu

WC h.vc mvcst~zrcd the dependence of rhc clcc~ronw I-actor III clccuon-tnnsfccr ra,e const.~nlr on tic cnmw gap and tcmpualurc by minimizing the clcctronic cncrgy wilh rcspcc~ to the mstanbncous non-equdbrmm solvent polar~~t~on. The clcctronic charge billows out and shrinks III rhc "normal" and slro

Absorption and photoemission spectra of naphthalene-rare gas matrices are reported. Bands arising from transitions to the n = 2.3 impurity Wannier states of naphthalene in this condensed system are observed. From measured values of the molecular ionization potenti'al. threshold energy for electron p