Electron attachment direct

If the electron attaches directly to an SS cr orbital, the disulfide bond promptly cleaves [3j] because the o2o 1 electron-attached state is strongly... 

Carbocations are stabilized by alkyl substituents attached directly to the positively charged carbon Alkyl groups are electron releasing sub stituents Stability increases in the order... 

To understand the effect of a carbonyl group attached directly to the ring consider Its polarization The electrons m the carbon-oxygen double bond are drawn toward oxy gen and away from carbon leaving the carbon attached to the nng with a partial posi tive charge Using benzaldehyde as an example... 

In phenol, aniline, and other compounds in which an atom with unshared electron pairs is attached directly to the benzene ring, structures such as = 0 H or especially... 

Much of what is knotm about the structure response of the ECD is based on empirical observations. Clearly, the ability to correlate the response of the detector to fundamental molecular parameters would be useful. Chen and Wentworth have shorn that the information required for this purpose is the electron affinity of the molecule, the rate constant for the electron attachment reaction and its activation energy, and the rate constant for the, ionic recombination reaction [117,141,142]. in general, the direct calculation of detector response factors have rarely Jseen carried j out, since the electron affinities and rate constants for most compounds of interest are unknown. 

The properties of carbenes are also expected to depend very greatly on the electronic characteristics of substituents bound to the divalent carbon. For example, many carbenes with heteroatomic elements attached directly to the central carbon are calculated to have single ground states (Mueller et al., 1981). The early, pioneering work on the stereochemistry of the reaction of carbenes with olefins was done with dibromocarbene (Skell and Garner,... 

Recent studies carried out by our group show [5] that low-energy electrons can directly attach to and subsequently fragment S-S a bonds in disulfide-linked dimers of Ac-Cys-Ala -Lys (with n — 10, 15, and 20) that are protonated at then-two Lys sites. An example of such a species is shown in Fig. 1 where the alanine... 

Ionization of DNA s solvation shell produces water radical cations (H20 ) and fast electrons. The fate of the hole is dictated by two competing reactions hole transfer to DNA and formation of HO via proton transfer. If the ionized water is in direct contact with the DNA (F < 10), hole transfer dominates. If the ionized water is in the next layer out (9 < r < 22), HO formation dominates [67,89,90]. The thermalized excess electrons attach preferentially to bases, regardless of their origin. Thus the yield of one-electron reduced bases per DNA mass increases in lockstep with increasing F, up to an F of 20-25. This means that when F exceeds 9, there will be an imbalance between holes and electrons trapped on DNA, the balance of the holes being trapped as HO . At F = 17, an example where the water and DNA masses are about equal, the solvation shell doubles the number of electron adducts, increasing the DNA-centered holes by a bit over 50% [91-93]. 

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