Hartwig synthesis

Benzene Ring Functionalization Hartwig Synthesis of Taiwaniaquinol B... 

In 2011, Hartwig and coworkers reported the total synthesis of taiwaniaquinol B (55, Scheme 11.9), a member of a family of diterpenoids that are derived from the abietane skeleton [36]. A key aspect of the Hartwig synthesis of taiwaniaquinol B was the use of the iridium-catalyzed borylation reaction to accomplish the C(5) functionalization of resorcinol derivative 53. This regioselectivity for the overall bromination is complementary to that which would be obtained using a standard electrophilic aromatic substitution (EAS) reaction. In the transformation of 53 to 54, a sterically controlled borylation was first accomplished, which was then followed by treatment of the boronic ester intermediate with cupric bromide to... 

Indole systan 168 has been prepared from a ring closure reaction of dihydroisoqui-noline derivative 167 catalysed by a NHC-Pd system (Scheme 5.44) [49], The product 168 was prepared from an intramolecular Buchwald-Hartwig coupling and was used in the total synthesis of rac-mangochinine 169. 

Hartwig, J.F., in Handbook of Organopalladium Chemistry for Organic Synthesis, edited by E.I. Negishi (Wiley-Interscience, New York, 2002), Vol. 1, pp. 1051. 

Hoveyda, A. H. Diversity-Based Identification of Efficient Homochiral Organometallic Catalysts for Enantioselective Synthesis. In Handbook of Combinatorial Chemistry, Nicolaou, K. C., Hanko, R., Hartwig, W., Eds. Wiley-VCH Weinheim, Germany, 2002, Vol. 2, pp 991-1016. 

The Ir-catalyzed borylation of the indole nucleus is another important development that promises to find widespread use in complex molecule synthesis. Early reports include the functionalization of C(7) and also of C(2), reported by Malezcka and Smith and by Hartwig, respectively [39, 40]. In a report in 2011, Movassaghi, Miller, and coworkers demonstrated the borylation of tryptamine derivative 61 to afford 62 in 70 % yield [41]. This material was subjected to Suzuki-Miyaura cross coupling with 7-bromoindole (63) to set the stage for studying the oxidative rearrangement of 64, which would eventually provide diketopiperazine indole alkaloids such as asperazine (Scheme 11.11). 

The Harmata group s initial report concerned a one-pot, one-operation procedure <99AG(E)2419> for the synthesis of enantiomerically pure 2,1-benzothiazines via the Buchwald-Hartwig reaction reported by Bolm <98TL5731 OOJOC169> for sulfoximine N-arylation. For example, treatment of ortho-bromobenzaldehyde 78 with enantiomerically pure N-H sulfoximine 77a in the presence of a palladium catalyst and base afforded the benzothiazine 79 in 78% yield (Scheme 22). Both C-N bond formation and condensation occurred during the reaction, a phenomenon that appears general for aldehydes like 78. 

J. F. Hartwig, Handbook of Organopalladium Chemistry for Organic Synthesis 2002, 1, 1051. 

Hartwig, J. H., Bokoch, G. M. etal. Thrombin receptor ligation and activated Rac uncap actin filament barbed ends through phosphoinositide synthesis in permeabilized human platelets. Cell 82 643-653,1995. 

In 1995, Buchwald and Hartwig independently discovered the direct Pd-catalyzed C—N bond formation of aryl halides with amines in the presence of stoichiometric amount of base [93, 94], This field is becoming rapidly mature and many reviews covering the scope and limitations of this animation have been published since 1995 [95-102]. In the context of heteroaryl synthesis, one example is given to showcase the utility and mechanism of this reaction. Applications to individual heterocycles may be found in their respective chapters. 

The powerful Buchwald-Hartwig aryl amination methodology [135-141] has been applied by Hartwig to the synthesis of N-arylpyrroles (196) [142,143]. 

Buchwald parlayed the powerful Buchwald-Hartwig aryl amination technology [439-447] into a simple and versatile indoline synthesis [448-452], For example, indole 368, which has been employed in total syntheses of the marine alkaloids makaluvamine C and damirones A and B, was readily forged via the Pd-mediated cyclization shown below [448], This intramolecular amination is applicable to the synthesis of -substituted optically active indolines [450], and o-bromobenzylic bromides can be utilized in this methodology, as illustrated for the preparation of 369 [451]. Furthermore, this Pd-catalyzed amination reaction has been applied to the synthesis of arylhydrazones, which are substrates for the Fischer indole synthesis [453,454],... 

The Buchwald-Hartwig aryl animation methodology cited above in this section was engaged by Hartwig and others to synthesize AT-arylindoles 377 [469]. Carbazole can be N-arylated under these same conditions with p-cyanobromobenzene (97% yield). Aryl chlorides also function in this reaction. The power of this animation method is seen by the facile synthesis of tris-carbazole 378 [469c]. 

A synergistic combination of Pd-catalyzed amination and arylation was the central operation of Sakamoto s synthesis of carbolines [147]. Diarylamine 187 was first installed via the Buchwald-Hartwig amination protocol. Subsequent intramolecular Heck-like arylation of 187 provided a novel route to a-carboline 188. 

This transformation avoids problems with the change of polarity during the reaction, which occurred in the telomerization, because two aromatic compounds react with each other to form a new aromatic product. The synthesis of 4-nitrodiphenylamine via a Pd-catalyzed Buchwald-Hartwig-type amina-tion from 4-chloronitrobenzene and aniline was chosen as the next test reaction in a cooperation with Lanxess as industrial partner of the network (Scheme 5). 

A diverse group of secondary and tertiary amines are readily synthesized from the reaction of primary and secondary amines with allylic carbonates in the presence of preformed iridium metalacycles, but the direct synthesis of primary amines via iridium-catalyzed allylic amination requires the use of ammonia as a nucleophile. The asymmetric allylation of ammonia had not been reported until very recently, and it is not a common reagent in other metal-catalyzed reactions. Nonetheless, Hartwig and coworkers developed the reactions of ammonia with allylic carbonates in the presence of la generated in situ [89]. Reactions conducted in the initial work led exclusively to the products from diallylation (Scheme 16). Further advances in... 

Lin and Zhang reported the synthesis of l-hydroxy-3-methylcarbazole (23) starting from the nitro derivative 625 (578). This synthesis uses a Buchwald-Hartwig amination for the synthesis of the diphenylamine 628. After protection of the hydroxy group in the nitrophenol 625 as a benzyl ether, the nitro group was reduced to the corresponding amino derivative 627. Amination of 627 with iodobenzene under Buchwald-Hartwig conditions afforded the diarylamine 628. Palladium(ll)-mediated cyclization of 628 led to the carbazole derivative 629, albeit in low... 

The relay compound 1025 required for the synthesis of all of these 7-oxygenated carbazole alkaloids was obtained starting from commercially available 4-bromo-toluene (1023) and m-anisidine (840) in two steps and 72% overall yield. Buchwald-Hartwig amination of 4-bromotoluene (1023) with m-anisidine (840) furnished quantitatively the corresponding diarylamine 1024. Oxidative cyclization of 1024 using catalytic amounts of palladium(ll) acetate afforded 3-methyl-7-methoxycarbazole (1025). Oxidation of 1025 with DDQ led to clauszoline-K (98), which, on cleavage of the methyl ether using boron tribromide, afforded 3-formyl-7-hydroxycarbazole (99) (546) (Scheme 5.149). 

The synthetic potential of palladium-mediated cross-coupling reactions (Heck, Suzuki, Stille, Sonogashira, Buchwald-Hartwig) led to the search for a practical synthesis of p-[ F]fluoroiodo- and p-[ F]fluorobromobenzene. p-[ F]Fluoroio-dobenzene (G, X = iodine) can be obtained in poor yield from p F]fluoride and a trimethylammonium precursor (P7). p-p F]Fluorobromobenzene can be prepared in a more reproducible way from 5-bromo-2-nitrobenzaldehyde (radiochemical yields > 70%). The synthesis involves a two-step procedure radiofluorination (F for NO2 substitution), then a catalysed decarbonylation [190,191]. Also very efficient is the one-step reaction of p F]fluoride with a suitable diaryliodonium salt (P6) giving >70% radiochemical yield [192-194]. 

---