Alkyne and nitrile

Cycloaddition reactions also have important applications for acyclic chalcogen-nitrogen species. Extensive studies have been carried out on the cycloaddition chemistry of [NSa]" which, unlike [NOa]", undergoes quantitative, cycloaddition reactions with unsaturated molecules such as alkenes, alkynes and nitriles (Section 5.3.2). ° The frontier orbital interactions involved in the cycloaddition of [NSa]" and alkynes are illustrated in Fig. 4.13. The HOMO ( Tn) and LUMO ( r ) of the sulfur-nitrogen species are of the correct symmetry to interact with the LUMO (tt ) and HOMO (tt) of a typical alkyne, respectively. Although both... 

In the context of pyridin synthesis from alkynes and nitriles homogeneously catalyzed by (cyclopentadienyl)cobalt complexes (Eq. 13), it was found that electron-withdrawing groups on the cyclopentadienyl ring significantly increase the activity [63]. During the screening of various cobalt half-sandwich complexes... 

Among the most exciting frontiers in boratabenzene chemistry is the development of transition metal-boratabenzene complexes as catalysts. As early as 1984, it had been demonstrated that these adducts can accelerate useful reactions— specifically, Bonnemann established that (C5H5B-Ph)Co(cod) serves as a catalyst for pyridine-forming cyclotrimerization reactions of alkynes and nitriles.39... 

Larock et al. reported the palladium-catalyzed reactions of alkynes and nitriles with 2-iodophenyl group (Equations (116)-(118)).473,473a 473c Ketones and naphthylamines are obtained presumably through the formation of vinylpalladium species followed by their addition to nitriles to afford palladium imine intermediates. 

In the presence of Co(I)-catalysts alkynes and nitriles can be co-trimerized in organic solvents to yield substituted pyridines under rather harsh conditions. The reaction is biased by formation of large quantities of benzene derivatives and with acetylene gas as much as 30 % of all products may arise from homotrimerization. It has been found recently, that with cobalt(I) catalysts heterotrimerization of various nitriles and C2H2 could be achieved under ambient conditions using aqueous/organic biphasic systems and irradiating the reaction mixture with visible light (Scheme 7.12) [39,40]. 

Hydration of olefins, alkynes and nitriles calls explicitely for the use of aqueous solvents. Indeed, one of the earliest investigations originates from 1969, when hydration of fluoroalkenes were studied with Ru(II)-chloride catalysts (Scheme 9.6). The reaction has no synthetic value but the studies helped to clarify the mechanism of the interaction of olefins with Ru(II)... 

We (79TH1 81GEP3117363 84USP4588815) and others (87MI1) have studied acetylacetonato and rj -cp-rhodium complexes as catalysts in the pyridine formation [Eq.(l)]. Resin-attached cp-rhodium complexes are also active in the cocyclization of alkynes and nitriles, and the activity is... 

The cobalt-catalyzed pyridine synthesis is the only known one-step process for the selective preparation of the industrially significant 2-substituted-pyridine derivatives. Moreover, the method is applicable to a broad variety of substituted alkynes and nitriles, thereby giving access to a whole range of pyridine derivatives having 1,2,3 or 5 substituents in the ring. Selected examples follow and are compared to the prior state of the art. 

Salts of the linear [S=N=S]" cation (isoelectronic with CS2) are readily prepared. This cation undergoes quantitative, 1,3-dipolar cycloaddition reactions with unsaturated molecules such as alkenes, alkynes and nitriles, and also with NS" , to give a variety of ring compounds (Scheme 2.8). The... 

Much recent work has been done on the synthesis of pyridines from alkynes and nitriles over cobalt catalysts. For example, 2-vtnylpyndine has heen obtained in good yield from acetylene and acrylonitrile using a cyclopentadienyl-cobalt catalyst. Pyridine has also been obtained from cyclopentadiene and ammonia over a sihca/alumina catalyst. 

Hydration reactions of alkynes and nitriles were studied over various zeolites in liquid phase, with ethanol as solvent. Alkyne hydration led to expected carbonyl compounds whereas the formation of the amide and of the corresponding ester was observed during nitrile hydration. 

Both reactions of alkynes and nitriles were studied over mordenite, B and Y-faujasite type zeolites in their H-form. 

The dealuminated zeolites, which possess high acidic properties, show a relatively good activity in both hydration reactions of alkynes and nitriles as already observed in the case of olefins (ref.19). Work is in progress to measure the acidity of the zeolites used, in order to gain further understanding of the different reactions. 

Table 2 Ortho Photocycloaddition of Arenes to Alkynes and Nitriles...

The triple bond of the nitrile group can be cotrimerized with two alkynes to produce pyridines. The cobalt-catalysed cocyclization of alkyne and nitrile in a ratio of 2 1 is a good synthetic route to pyridine derivatives [70], Two regioisomers, 174 and 175, are obtained by the reaction of propyne with MeCN. The reaction is carried out in a large excess of MeCN, and potentially useful for commerical production of pyridine derivatives [71]. The reaction of acetylene itself with various nitriles produces the a-substituted pyridine 176 in the presence of water under irradiation [72], HCN cannot be used for this cocyclization. The reaction has been applied to alkaloid synthesis. 

The hydrides 44b have been found to polymerize ethylene and react with a variety of protic reagents such as terminal alkynes and nitriles. Catalytic effects in the hydroboration of olefins have also been observed [27]. A well-defined /i-ethynyl complex of yttrium is formed by protolysis of the alkyl derivative 38b with acetylene (Eq. 18). Figure 14 shows the dimeric structure of 45b with bridging ethynyl ligands [27, 65]. 

A molecule making use of the two sp orbitals for bonding will be linear in shape. There are two common functional groups where such bonding occurs alkynes and nitriles. 

Pyridinium (trifluoroacetyl)methylide forms [3-1-2] cycloadducts with a wide variety of perfluorinated and partially fluorinated olefins, alkynes, and nitriles [86JFC(34)275]. Photolysis of a mixture of hexafluoro-3-diazobutan-2-one and perfluoro-2-butyne in the gas phase results in the formation of tetrakis(trifluoromethyl)furan a ketocarbene is the key intermediate of this reaction sequence (87JOC2680) (Scheme 79). 

Isoxazoles by a Consecutive 3CR of Acid Chlorides, Alkynes, and Nitrile Oxides... 

An important and extensively investigated application of CpCo complex chemistry is the catalyzed synthesis of pyridines from alkynes and nitriles. Dissociation of the L ligands liberates the CpCo fragment to react with alkyne to form a cobaltacyclopentadiene complex. The nitrile coordinates to this intermediate and subsequently undergoes insertion to form a seven-membered cobaltacycle. Reductive coupling gives pyridine and reforms CpCo. Asymmetric alkynes add to the carbon with the bulkier substituent adjacent to the nitrile carbon. 

Co arene chemistry has been expanded by the preparation of a number of (arene)Co(j7" -diene)+ and (arene)Co( , -enyl) complexes starting from (10). Hydrogenation of (10) in the presence of an arene and a base (piperidine or quinuclidine for obvious stabilization of coordinatively unsaturated cobalt intermediates) gives cyclooctenyl complexes (37) (equation 53). This reaction occurs with a large niunber of arenes even CeFg gives an j -arene complex. The resulting complexes (37) are moderately active catalysts in the pyridine synthesis from alkynes and nitriles (Section 5.1.4). 

Thermal fragmentation of 2,5-disubstituted tetrazoles results in loss of Na and generation of a reactive nitrilimine intermediate (67). The Hammett p-values for the A -phenyl and C-phenyl rings of diaryltetrazoles (65) were +1.16 and -0.23, respectively, suggesting an unsymmetrical transition state of type (66) (68X3787). Subsequent additions of the nitrilimines to unsaturated bonds such as alkenes, imines, alkynes and nitriles give an added importance to the parent tetrazoles as synthetic precursors (Scheme 6). Among the most... 

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