Cation generator

The chemical pathways leading to acid generation for both direct irradiation and photosensitization (both electron transfer and triplet mechanisms) are complex and at present not fully characterized. Radicals, cations, and radical cations aH have been proposed as reactive intermediates, with the latter two species beHeved to be sources of the photogenerated acid (Fig. 20) (53). In the case of electron-transfer photosensitization, aromatic radical cations (generated from the photosensitizer) are beHeved to be a proton source as weU (54). 

Highly unstable vinyl cations, generated in situ from vinyl triflates have also been arylated (the triflate group is replaced by the aromatics) to give vinyl aromatics under Friedel-Crafts conditions (28). 

Single-electron transfer from a borate anion particle to the excited polymethine cation generates a dye radical and an aLkylphenylbotanyl radical. The aLkylphenylbotanyl radical fragments to form an active alkyl radical. It is the alkyl radical particles that initiate the polymerization reactions (101). 

Adamantylamine is prepared from the corresponding alcohol or bromide by bridgehead cation generation in the presence of acetonitrile (49). Selective hydrolysis of the resultant acetamide to the rigid cycloahphatic amine by acid or base is difficult. 

Azaadamantanes biocide, 1, 400 mechanism, 1, 401 photoelectron spectroscopy, 2, 142 5-Azaadenines reactions, 5, 878 synthesis, 5, 901 8-Azaadenosines synthesis, 5, 895 Azaallyl cations generation, 7, 73 Aza[10]annulenes bridged... 

The stabilized fluorinated allylic cation, generated from cis- or trans-l-(p-methoxyphenyl)pentafluoropropene and antimony pentafluoride in sulfur dioxide, is solvolyzed by methanol to methyl 2-(p-methoxyphenyl)difluoroacrylate [36] (equation 37)... 

Radical cations generated in a mass spectrometer from aldehydes and ketones with y hydrogens undergo a rearrangement in which a y hydrogen is first transferred and a carbon-carbon bond is then cleaved, e.g. 

This seeming unreactivity of vinyl halides in solvolytic processes and the lack of availability of more reactive precursors, such as sulfonate esters, until recently has discouraged early attempts at mechanistic investigations of vinyl cations generated by solvolyses. However, vinyl cations have been generated via vinyl diazonium ions derived from various precursors. 

More recently, such vinyl cations generated by the alkaline decomposition of 3-nitroso-2-oxazolidones have been trapped by halogens to give vinyl halides as products (108). It has been suggested that unsaturated carbenes, RjC=C , may be the intermediates in the basic decomposition of 132 (109). Indeed, when 132 (Ri=R2=CH3, R3=H) was treated with lithium ethoxide in the... 

It seems then that Schubert and Barfknecht (126) may have had not a-bromo-p-aminostyrene as their substrate, but some other less reactive compound, and the original vinyl cation hypothesis of Grob (121) for the solvolysis of this substrate may hold. Furthermore, Grob s pioneering study has served as a major catalyst for further investigations into vinyl cations generated by solvolysis. 

The first example of a carbon migrating across a double bond of a vinyl cation generated by solvolysis was reported by Hanack, Schleyer, Stang, and co-workers (177) with the vinyl substrate 230. Solvolysis of 230 in 80% aqueous ethanol gave, besides a small amount of allene, exclusively the rearranged ketone... 

Summary of Kinetic (3-Deuterium Isotope Effects in Vinyl Cations Generated... 

Obviously, in the ground state of the radical cations generated, the positive charge delocalizes energetically favorably into the half-shells Si(SiR3)3, which due to the low effective nuclear charge of their Si centers [2,5a,8,9] are excellent electron donor substituents. 

As described previously, the two dimethyl amino methyl groups on the 2,6-position of the phenyl ring of teluride 161 act as internal ligands (Koten s arms) and stabilize the cation generated at the central Te atom (see Equation 44). Furukawa and co-workers subsequently showed that these Koten s arms also activate the molecule to release alkyl substituents which are attached to the central chalcogen atom <1995JA10153> and <1997BCJ2571>. For example,... 

However, in the presence of a suitable Lewis base the polymerization becomes living, due to the nucleophihc stabilization of the growing cation generated by the added base. (3) Initiator, strong Lewis acid and onium salt as additive The previous method cannot be easily applied in polar media. In this case the living cationic polymerization is promoted by the addition of salts with nucleophihc anions, such as ammonium and phosphonium derivatives. 

Other radical cyclization approaches to the synthesis of piperidines include a CAN-mediated stereoselective cyclization of epoxypropyl cinnamyl amines <06TL705> and a cyclization of (-trimethylsilylmethylamine radical cation, generated via a photoinduced electron transfer reaction to a tethered -functionality <06JOC8481>. 

At present a variety of studies with PAH, as well as other chemicals, suggest that metabolic activation in target tissues can occur by one-electron oxidation (6,7). The electrophilic intermediate radical cations generated by thTs mechanism can react directly with various cellular nucleophiles. In this paper, we will discuss chemical, biochemical and biological evidence which indicates that one-electron oxidation plays an important role in the metabolic activation of PAH. 

Despite the fact that the electrochemical oxidation of most of the nonconjugated dienes generally does not give products which result from interaction of the double bonds with one another, the anodic oxidation l-acetoxy-l,6-heptadienes gives intramolecularly cyclized products, that is, the cyclohexenyl ketones (equation 15)13. The cyclization takes place through the electrophilic attack of the cation generated from enol ester moiety to the double bond. 

Intramolecular C,C-Coupling Reactions of Bis-N,N-(trimethylsiloxy) Iminium Cations Here we consider one of the mechanistic schemes of intramolecular C,C-coupling reactions of bis-/V,/V-(siloxy)iminium cations generated by silylation of P-nitroalkylated derivatives of malonic ester (382) (Scheme 3.216). 

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