2011
DOI: 10.1134/s1070428011110236
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New catalyst for homocoupling of aryl halides based on nickel complexes with diazabutadiene ligands

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Cited by 9 publications
(10 citation statements)
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“…Compounds of the family bis(aryl)acenaphthenequinonediimine (Ar‐BIAN) ( 1 ; see Scheme ) have been known for some time,1–3 but have been brought to the general attention only in the 90s by Elsevier and his group 4. Since then, they have found widespread use mostly as ligands for transition metals and the corresponding complexes have been employed as catalysts for a wide variety of reactions, such as alkene hydrogenation,5 polymerization,611 copolymerization,12–18 aziridination,19 cyclopropanation,19 and epoxidation20 alkene‐CO copolymerization,2124 alkyne coupling in the presence of halogens or organic halides and tin compounds2527 or just tin compounds,28 selective semihydrogenation of alkynes29 and allenes,30 allylic aminations of olefins by nitroarenes in the presence of CO,3133 the synthesis of pyrroles and oxazines from dienes, nitroarenes and CO,34 the reduction of nitroarenes to anilines by CO/H 2 O,3537 the hydroamination of alkynes,38 the homo‐coupling of organic halides39 and their cross‐coupling reaction with organomagnesium, ‐zinc, and ‐tin reagents,4044 the Suzuki–Miyaura cross coupling,45 the synthesis of 4‐quinolones and 2,3‐dihydroquinolones from 2′‐nitrochalcones and CO,46, 47 the synthesis of indoles from o ‐nitrostyrenes and CO,47, 48 the Heck arylation of olefins,49, 50 and oxidative Heck reaction,51, 52 the synthesis of dihydrofurans and dihydrobenzoxepines53 and N ‐acyl vinilogous carbamic acids,54 the cyclotrimerization of alkynes,55 the click reaction,56 the dimerization of vinyl ethers to acetals,57 and the diboration of α,β‐unsaturated carbonyl compounds 58. For some of these syntheses, the use of the Ar‐BIAN ligands was instrumental in achieving a high performance of the catalytic system.…”
Section: Introductionmentioning
confidence: 99%
“…Compounds of the family bis(aryl)acenaphthenequinonediimine (Ar‐BIAN) ( 1 ; see Scheme ) have been known for some time,1–3 but have been brought to the general attention only in the 90s by Elsevier and his group 4. Since then, they have found widespread use mostly as ligands for transition metals and the corresponding complexes have been employed as catalysts for a wide variety of reactions, such as alkene hydrogenation,5 polymerization,611 copolymerization,12–18 aziridination,19 cyclopropanation,19 and epoxidation20 alkene‐CO copolymerization,2124 alkyne coupling in the presence of halogens or organic halides and tin compounds2527 or just tin compounds,28 selective semihydrogenation of alkynes29 and allenes,30 allylic aminations of olefins by nitroarenes in the presence of CO,3133 the synthesis of pyrroles and oxazines from dienes, nitroarenes and CO,34 the reduction of nitroarenes to anilines by CO/H 2 O,3537 the hydroamination of alkynes,38 the homo‐coupling of organic halides39 and their cross‐coupling reaction with organomagnesium, ‐zinc, and ‐tin reagents,4044 the Suzuki–Miyaura cross coupling,45 the synthesis of 4‐quinolones and 2,3‐dihydroquinolones from 2′‐nitrochalcones and CO,46, 47 the synthesis of indoles from o ‐nitrostyrenes and CO,47, 48 the Heck arylation of olefins,49, 50 and oxidative Heck reaction,51, 52 the synthesis of dihydrofurans and dihydrobenzoxepines53 and N ‐acyl vinilogous carbamic acids,54 the cyclotrimerization of alkynes,55 the click reaction,56 the dimerization of vinyl ethers to acetals,57 and the diboration of α,β‐unsaturated carbonyl compounds 58. For some of these syntheses, the use of the Ar‐BIAN ligands was instrumental in achieving a high performance of the catalytic system.…”
Section: Introductionmentioning
confidence: 99%
“…We started from a study of influence of variation of the conditions in a probe reaction-bromobenzene homocoupling-on the performance of the catalytic system (Table 1) using one of the best-performing ligands from our previous work (L Acen-dipp , Figure 1, C, R = 2,6-diisopropylphenyl). 18 The 0.75 equiv. loading of zinc dust (Table 1, entry 4) was generally enough for almost complete conversion of bromobenzene to biphenyl, although a larger excess (8 equiv.…”
Section: Resultsmentioning
confidence: 99%
“…Ligands L tOct , L Acen-dipp , L cC6 , and L cC12 , which gave the most active catalysts of homocoupling of 2-bromotoluene, were further considered to be the "first choice" ligands when a substrate with unknown reactivity is to be used with L tOct being a priori more preferable for ortho-unsubstituted aryl halides, whereas L cC6 and L cC12 worked better for mono-ortho-substituted ones. Next, we studied the scope of the reaction (Scheme 2) using various unsaturated halides and observed formation of homocoupling products containing bulky (5) electron-donating (11)(12)(13)(14), electron-withdrawing (7)(8)(9)(10)(15)(16)(17)(18), protecting (19,22,24), and reactive (23) groups. Aryl chlorides (2), iodides (18,19), and hetaryl (21,22) and vinyl (27) bromides were used as precursors.…”
Section: Resultsmentioning
confidence: 99%
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“…Recent studies have shown that the substituents on the imine carbon atoms have significant electronic effects on the coordination properties and electronic structures. , Thus, the development of new approaches for the synthesis of C-substituted dimines are of great importance. In this context, several methods including cyanide ion and rare-earth-metal-mediated C–C coupling of aldimines for the synthesis of diimines have been developed . However, some of these methods suffer from drawbacks such as low isolated yields and limited substrate scopes.…”
mentioning
confidence: 99%