Radical-nucleophilic aromatic substitution intramolecular

Aromatic nitro compounds undergo nucleophilic aromatic substitutions with various nucleophiles. In 1991 Terrier s book covered (1) SNAr reactions, mechanistic aspects (2) structure and reactivity of anionic o-complexes (3) synthetic aspects of intermolecular SNAr substitutions (4) intramolecular SNAr reactions (5) vicarious nucleophilic substitutions of hydrogen (VNS) (6) nucleophilic aromatic photo-substitutions and (7) radical nucleophilic aromatic substitutions. This chapter describes the recent development in synthetic application of SNAr and especially VNS. The environmentally friendly chemical processes are highly required in modem chemical industry. VNS reaction is an ideal process to introduce functional groups into aromatic rings because hydrogen can be substituted by nucleophiles without the need of metal catalysts. 

Anodic oxidation of an A-benzoylated enamine in acetonitrile/methanol/Na2C03 leads not only to the formation of the dimethoxylated starting material but also to a methoxy-substituted oxazoline through intramolecular nucleophilic attack of the benzoyl oxygen [157]. In another case, an electron-rich aromatic system can act as a nucleophile in an intramolecular cyclization with the enamine radical cation or dication [Eq. (29)] [157]. 

Intramolecular Aromatic Substitutions with Aryl and Nucleophilic C-Radicals... 

Compared to the intramolecular aromatic alkylation with nucleophilic radicals, the analogous process with electrophilic radicals is far less common. Citterio carefully studied the Mn(OAc)3-mediated intramolecular homolytic aromatic substitution of various dialkyl malonates [71, 73]. He showed that the reaction is well suited for the formation of 5- (see 45), 6- (see 46) and 7-membered benzanellated rings (see 47). For cyclizations forming a 6-membered ring, high yields were obtained in the alkylation of electron-rich as well as electron-poor arenes. However, the formation of the 7-membered ring occurred only with electron-rich arenes. Cerium(IV) ammo-... 

S02-extrusion affords the electrophilic radical 49 (Scheme 10). Intramolecular homolytic substitution eventually gives tetrahydronaphthalene 50 (92%). Beckwith showed that the A-(o-bromophenyl)amide 51 can be transformed into the corresponding oxindole 54 (70%) at high temperatures using BusSnH via tandem radical translocation of the initially formed aryl radical 52 to form 53 with subsequent intramolecular homolytic substitution [77]. The nucleophilic a-aminomethyl radical 55 reacted in a tandem addition/homolytic aromatic substitution reaction via radical 56 to tetrahydroquinoline 57 [78]. Radical 55 can either be prepared by oxida-... 

Some interesting photo-NOCAS-type reaction (photochemical nucleophile-olefin combination, aromatic substitution) have been reported by three groups. Arnold has developed the photo-NOCAS reaction as three components photoaddition.Xu et al., reported the intramolecular photocyclization of A-(co-hydroxyalkyl)-tetrachlorophthalimide (138, 141) with alkenes to give medium- and large-ring heterocycles (140,143). These photoreactions proceeded via 1, n-biradicals generated from the nucleophilic attack of alcohols to alkenes between the radical anions of phthalimides and the radical cations of alkenes. 

Arnold, D.R. and McManus, K.A., Photochemical nucleophile-olefin combination, aromatic substitution (photo-NOCAS) reaction methanol, 5-myrcene and 1,4-dicyanobenzene. Intramolecular cyclization of an ene-diene radical cation. Can. J. Chem., 76, 1238, 1998. 

The addition of the nucleophile to the aryl radical is the reverse of the cleavage of substituted aromatic anion radicals that we have discussed in Section 2 in terms of an intramolecular concerted electron-transfer-bondbreaking process and illustrated with the example of aryl halides. The present reaction may thus be viewed conversely as an intramolecular concerted electron-transfer-bond-forming process. The driving force of the reaction can be divided into three terms as in (131). The first of these, the... 

Nitrogen heterocycles continue to be valuable reagents and provide new synthetic approaches such as NITRONES FOR INTRAMOLECULAR -1,3 - DIPOLAR CYCLOADDITIONS HEXAHYDRO-1,3,3,6-TETRAMETHYL-2,l-BENZISOX AZOLINE. Substituting on a pyrrolidine can be accomplished by using NUCLEOPHILIC a - sec - AM IN O ALKYL ATION 2-(DI-PHENYLHYDROXYMETHYL)PYRROLIDINE. Arene oxides have considerable importance for cancer studies, and the example ARENE OXIDE SYNTHESIS PHENANTHRENE 9,10-OXIDE has been included. An aromatic reaction illustrates RADICAL ANION ARYLATION DIETHYL PHENYLPHOSPHONATE. 

The direct nucleophilic substitution of electron-rich phenol ethers using hypervalent iodine oxidants in the presence of Lewis acid or fluorinated alcohols and involving aromatic cation-radical intermediates was originally developed by Kita and coworkers in 1994 [362], Since then this procedure with some variations has been extensively applied by Kita and other researchers for various oxidative transformations. In the intermolecular mode, this reaction (Scheme 3.122) has been utilized for the preparation of the products 298 from N3, AcO , ArS, SCN , 3-dicarbony 1 compounds and other external nucleophiles [320]. The oxidative coupling reaction in the intramolecular mode provides a powerful synthetic tool for the preparation of various... 

This type of fragmentation by an intramolecular substitution has been studied in detail by the author and is a rather common reaction of unsaturated or aromatic radical cations of a suitable structure. The substitution occurs by attack of a nucleophilic group on an ionized C=C double bond or an ionized aromatic ring and is driven by the generation of a stable cyclic fragment ion. By this process a substituent at the attacked position is lost, and the process is particularly abundant in the mass spectra if a weak bond is cleaved, for instance during the loss of a Cl... 

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