Addition Reactions of Arenes

An analogous regioselective effect of silver ions on an addition reaction of arene-diazonium ions was found by Ignasiak et al. (1975) with cyanide salts. Potassium cyanide yields diazocyanides (Ar— N2 — C = N see Sec. 6.6), i.e., C-coupling products, but with silver cyanide - albeit in low yield (7-9%) - diazoisocyanides (Ar—N2 — N = C) are formed (a better synthesis of diazoisocyanides is described in Sec. 6.4). 

In general, nucleophilic addition reactions of arene oxides with nonpolarizable oxygen and nitrogen nucleophiles are very slow. Thus both NH3 and NHj nucleophiles failed to add to benzene oxides under a range of conditions. Amine nucleophiles have, however, been found to react very slowly with benzene oxide. 

Stoichiometric cycloruthenation reactions, as well as the early example of catalytic deuteration of phenol (see above) [38] served for the development of efficient catalytic strategies for C-C bond formations through C-H bond functionalizations. Indeed, ruthenium-catalyzed atom-economical [51] addition reactions of arenes onto C-C multiple bonds, hydroarylations [52-57], were found to be very useful. In an early example, Lewis and Smith disclosed a regioselective alkylation of phenol through in situ formation of its phosphite, and subsequent directed C-H bond functionalization (Scheme 8) [58],... 

The initial step in the addition reactions of arenes and aryl olefins with tertiary amines is electron transfer quenching of the singlet arene or aryl olefin acceptor by a ground state amine donor. The free energy of electron transfer can be calculated using Weller s equation (Eq. I) ... 

Intramolecular addition reactions of arenes and aryl olefins with secondary and primary amines have proven to be of broader scope than the analogous reactions with tertiary amines. The intramolecular addition of nonconjugated o-allylanilines 51 to yield the 2-methylindolines 52 was reported by Koch-Pomeranz et al. in 1977. Intramolecular electron transfer from the singlet aniline to the ground state alkene followed by N-H proton transfer to the alkene terminal carbon was proposed to account for the regioselective formation of indolines. Proton transfer to the internal carbon would yield tetrahydroquinolines, which were... 

The synthetic applications 440) and mechanistic aspects 4411 of intermolecular photocycloaddition reactions of arenes to olefins have been reviewed recently. Intramolecular cycloadditions442a,b) have been studied in the context of the photochemical behaviour of bichromophoric molecules, as to investigate interchromophoric interactions in polyfunctional molecules. Three types of addition products can be formed in the photocycloaddition of benzene to an alkene (4.37)441. ... 

Many related complexes of iridium and rhodium undergo the oxidative addition reaction of alkanes and arenes [1]. Alkane C-H bond oxidative addition and the reverse reaction is supposed to proceed via the intermediacy of c-alkane metal complexes [4], which might involve several bonding modes, as shown in Figure 19.5 (for an arene the favoured bonding mode is r 2 via the K-electrons). 

A review which covered the different known methods for the preparation of chiral amines and analysis of the different chiral catalysts used, correlating them according to their efficiency, selectivity, and flexibility, has been presented.279 Reduction reactions of alkenes, arenes, alkynes and allenes resulting in the formation of two or more C-H bonds280 and reduction and addition reactions of alkynes to alkenes to form one or more C=C bonds281 have been reviewed. 

In our attempt to extend the coupling reaction of arenes with alkenes to the coupling with alkynes, as shown in Scheme 4, it was found that the reaction of arenes with ethyl propiolate in TFA (trifluoroacetic acid) gave addition products instead of a coupling product [3]. This addition reaction has been extended to various alkynes and various arenes and also to intramolecular reactions for synthesis of heterocycles such as coumarins, quinolines, and thiocoumarins. 

It is also likely that radical cation formation occurs in reactions of very reactive arenes with Pd(II) (see Section II.B.3.b), which would also lead to biaryl formation. That the reactions of arenes with Pd(II) compounds are far from simple is illustrated by the work of Arzoumanidis and Rauch.573,574 In the reaction of Pd(02CCF3)2 with benzene or naphthalene in TFA, a variety of polynuclear complexes, containing both Pd(I) and Pd(II) and arenes, were isolated574 in addition to the usual biaryls. 

Synthetically useful reactions of (arene)Mn(CO)3+ complexes with such nucleophiles as methoxide, benzenethiolate, azide, various amines, and anilines are also noteworthy. These complexes have also been extensively studied with regard to nucleophilic addition reactions resulting in thermally stable cyclohexadienyl complexes [2]. 

Addition reactions of sulphenyl halides (in particular chlorides) to acetylene derivatives have been extensively explored and recently reviewed (Modena and Scorrano, 1968). Although free radical processes may be involved under specific conditions, the addition of both arene-and alkanesulphenyl halides normally occurs by an ionic mechanism, the sulphenyl halide sulphur being the electrophilic centre. 

Addition reactions of the Si-Si cr-bonds of disilanes 121, 131, and 133 to the C=C bonds of various arynes were found to be promoted by a palladium-1,1,3,3-tetramethylbutyl isocyanide complex. Diverse 1,2-disilylated arenes 130, 132, and 134 were obtained from five-membered and benzo-condensed six-membered cyclic disilanes (Equations 21-23). The H, 13C, and z9Si NMR spectroscopic data as well as X-ray crystallographic analysis were used to confirm the above structures <20050M156>. 

More recently, cationic intermediates have been observed in the Heck reactions of arene diazonium salts catalyzed by triolefinic macrocycle Pd(0) complexes [17,59], o-iodophenols and enoates to form new lactones [60], and o-iodophenols with olefins (the oxa-Heck reaction) [61 ]. In the first case ions were formed by oxidation of the analyte at the capillary, or by association of [NH4] or Na". In the two other cases ionization occurred through the more typical loss of a halide ligand. The oxa-Heck reaction provides a good example of how these experiments are typically performed and the type of information that can be obtained. The oxyarylations of olefins were performed in acetone, catalyzed by palladium, and required the presence of sodium carbonate as base. Samples from the reaction mixtures were diluted with acetonitrile and analyzed by ESI(+)-MS. Loss of iodide after oxidative addition of o-iodophenol to palladium afforded positively-charged intermediates. Species consistent with oxidative addition, such as [Pd(PPh3)2(C6H50)], and the formation of palladacycles of the type seen in Scheme 8 were observed. Based on this, a mechanism for the reaction was proposed (Scheme 8). 

Scheme 35 General reactions of arene metal complexes after initial nucleophihc addition...

For a long time aromatic compounds were believed to be stable when exposed to ultraviolet irradiation. The interest in the photochemistry of arenes only started in the late 1950s when several groups observed both isomerization and addition reactions of benzene and its derivatives. Among the pioneers who were active at that time are the groups of Bryce-Smith and Schenck. Since then the photochemistry of aromatic compounds has become the subject of innumerable papers dealing with their conversion to other aromatic systems (by substitution or isomerization) or even to nonaromatics. 

Abstract Stoichiometric cycloruthenation reactions of substrates containing Lewis-basic functionalities set the stage for efficient ruthenium-catalyzed C-H bond functionalization reactions. Thereby, selective addition reactions of C-H bonds across alkenes or alkynes enabled atom-economical synthesis of substituted arenes. More recently, ruthenium-catalyzed direct arylation reactions were examined, which display an unparalleled scope and, hence, represent economically and environmentally benign alternatives to traditional cross-coupling chemistry. 

The complexes [(jj -arene)Mn(CO)3]+ constitute a very important class of compounds that have been shown to undergo a rather amazing range of useful chemical reactions. The synthesis of such complexes is generally straightforward, unless the arene contains an electron-withdrawing substituent. The most useful reaction of [( -arene)Mn(CO)3]+ is the very facile addition... 

Reduction of pyridine with Na in a protic medium is interpreted as being analogous to the Birch reaction of arenes, i.e. a two-step, single-electron transfer involving the radical anion 132 followed by a 1,2- or 1,4-addition of hydrogen ... 

Whereas addition reactions of singlet aryl olefins and arenes with secondary and tertiary amines are common, addition of ammonia has not been reported and addition of primary amines... 

The 1980s witnessed a revival of interest in synthetic photochemistry, largely based on the successful application of intramolecular arene-olefin and enone-olefin photochemical cycloaddition reactions to the synthesis of polycyclic natural and unnatural products. The potential application of intramolecular arene-amine addition to the synthesis of alkaloids was suggested in 1973 by Btyce-Smith et al.," based on their observation of intramolecular photochemical 1,4-addition reaction of the (N,A/-dimethylaminoalkyl)benzenes I and 2 to yield 3 and 4, respectively. Intramolecular addition reactions have subsequently been observed for a large number of (aminoal-... 

Yasuda and Pac and their co-workers " have significantly extended the scope of ET-sensitized addition in their studies of the photoamination reactions of arenes and aryl olefins (Scheme 2). DCNB is a powerful electron acceptor (Table 1) capable of oxidizing the singlet slates of most arenes and aryl olefins (Table 2). Benzene does not undergo photoamination however a di-methoxy derivative and biphenyl are reactive. Photoamination products are generally obtained in high preparative yield using ammonia or primary amines however, secondary amines can only be used successfully with arenes such as anthracene which have oxidation potentials lower than those of secondary amines. When the amine oxidation potential is comparable to... 

The initial report of intramolecular benzene-tertiary amine addition by Bryce-Smith et al. might have been expected to trigger a flurry of research activity similar to that generated by intramolecular benzene-olefin photoaddition reactions. However. a detailed account of the formation of adducts 3 and 4, including isolated yields and complete structural characterization, never appeared. Neither have additional examples of arene-tertiary amine addition reactions been reported. 

The failure of tertiary (AI,IV-dimethylaminoalkyl)arenes and stilbenes to undergo intramolecular addition may reflect structural differences between inter- vs. intramolecular exciplexes. Polar solvents are generally required for the observation of in-termolecular addition reactions of tertiary amine exciplexes. Equilibration between solvent-separated and radical ion pairs may be necessary in order to achieve an appropriate reaction trajectory for a-C-H proton transfer. In the case of intramolecular exciplexes with short chain linkers, electron transfer in polar solvents may occur in extended geometries which are inappropriate for proton transfer and chain folding may not compete effectively with exciplex decay. The exceptions to these generalizations, benzene and styrene, form more localized anion radicals which undergo both inter- and intramolecular reactions with tertiary amine cation radicals in nonpolar solvents. 

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