Nucleophilic substitution adamantyl derivatives

One of the most common reasons for lowyields is an incomplete reaction. Rates of organic reactions can vary enormously, some are complete in a few seconds whereas rates of others are measured on a geological timescale. Consequently, to ensure that the problem of low yields is not simply due to low reactivity, reaction conditions should be such that some or all of the starting material does actually react. If none of the desired product is obtained, but similar reactions of related compounds are successful, the mechanistic implications should be considered. This situation has been referred to as Limitation of Reaction, and several examples have been given [32 ] the Hofmann rearrangement, for example, does not proceed for secondary amides (RCONHR ) because the intermediate anion 28 cannot form (Scheme 2.11). Sometimes, a substrate for a mechanistic investigation may be chosen deliberately to exclude particular reaction pathways for example, unimolecular substitution reactions of 1-adamantyl derivatives have been studied in detail in the knowledge that rear-side nucleophilic attack and elimination are not possible and hence not complications (see Section 2.7.1). 

Relative reactivity studies of homolytic substitution of monosubstituted benzene derivatives reveal that the 1-adamantyl radical has more pronounced nucleophilic properties than have other, more strained, bridgehead radicals. With benzo-nitrile 21.1) almost exclusive para-substitution is observed, whereas with anisole 0.65) the three possible sites are attacked almost equally. Kinetic studies on the reaction of adamantanethione with adamantane-2-thiol indicate that the rate-controlling chain-propagation step is hydrogen abstraction from the thiol (AdHSH) by the carbon-centred radical AdHSSAd-, and that the main mode of termination involves the diffusion-controlled bimolecular self-reaction of these radicals. ... 

The face selectivity in stericaUy unbiased systems, exhibited in 2-adamantyl cation addition and elimination reactions, among others, has been reviewed, " and so have the elecuonic factors governing the diastereofacial selectivity of many reactions, including the nucleophilic capture of 5-substituted adamantyl cations. The standard enthalpy of formation of the 1-adamantyl cation (99) in the gas phase has been determined experimentally to be 162.0 2.0 kcalmoP, and the ab initio calculations on this species have been re-assessed. It has been found that the inuamolecular hydride transfer occurring in the cation derived from (198) is competitive with intermolec-ular processes, and that the rates of the hydride transfers and the reaction products observed were dependent upon R. The direct synthesis of stable adamantylide-neadamantane bromonium salts is reported the anions used contained or Mo, and the resulting salts proved to be more stable than the Brs salts. The synthesis, reactions, and properties of some 2,8-didehydronoradamantane derivatives are reported. " ... 

New PAEKs containing adamantyl-substituted naphthalene were derived from AdNp and 3FHQ with DFB by a nucleophilic... 

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