The relative reactivity of a number of organic halides with the mobile electron produced in y-irradiated methyltetrahydrofuran glass at 77 "K has been studied by a scavenger competition kinetics. It has been found that for the organic halides there exists a correlation between the relative electron capture cross section in the glassy matrix and the'heat of reaction for dissociative electron capture estimated from gas phase data.Nous avons ktudit la reactivite relative de certains halogtnures organiques vis-a-vis l'tlectron mobile produit en irradiant par des rayons-? le mtthyltttrahydrofuranne vitreux a 77 OK, au moyen d'une cinetique de competition de pikge. Nous avons trouvC qu'il existe, pour les halogenures organiques, une correlation entre la surface relative de capture d'tlectron dans la matrice vitreuse et la chaleur de reaction dans le cas de la capture dissociative d'electron, estimee a partir des rksultats en phase gazeuse.Canadian Journal of Chemistry, 50,2702Chemistry, 50, (1972 The effect of a number of different electron scavengers have been studied on both the optical and e.s.r. absorption of trapped electrons in polar glasses, such as alkaline ice (1 -3), alcohols (4-12), water-alcohol mixtures (13-15), and methyltetrahydrofuran (16-25). One objective of scavenger studies has been to produce new anions from the reaction of the mobile electron with the scavenger molecule. The second objective has been to study the relative reactivity of the radiation produced mobile electron with various scavenger solutes.In this note we report the relative cross sections of various organic halides for capturing mobile electrons (e,) produced in y-irradiated methyltetrahydrofuran (MTHF) glass at 77 OK. We also show that for the organic halides there exists a correlation between the electron capture cross section in the glassy matrix and the heat of reaction for dissociative electron capture estimated from gas phase data.MTHF was purified by passage through a column of activated alumina, and was degassed by the freeze-pump-thaw technique and dried over calcium hydride under vacuum. MTHF was further dried with a sodium mirror prior to use. Biphenyl was purified by recrystallization from n-hexane. Organic halides as solutes were the purest grade commercially available. They were alkyl iodides (CH31, C2H,I, n-C3H71, i-C3H71, n-C4H91), alkyl bromides (C,H,Br, i-C3H7Br, n-C4HgBr, t-C4H9Br), alkyl chlorides (n-C3H7CI, i-C3H7Cl, n-C4H9Cl, i-C4HgCl, t-C4HgCl), and benzyl bromide and chloride. y-Irradiations of samples containing 0.13 mol% biphenyl and the halides at various concentrations were carried out at 77 OK in the dark to a dose of 1.04 x lo4 rad. The optical absorption band of biphenyl anion with a peak at 408 nm was measured on the y-irradiated samples at 77 OK in the dark.The efficiencies of electron capture by the halides were determined by making use o f competitive reactions between biphenyl (4,) as the reference substance and the halides (RX) as second solutes (reactions 1 and 2).A simple competition kinetic...