Aryl alkyne coupling

A variation of this aryl-alkyne coupling reaction reacted methylthioalkynes (R—C=C—SMe) with arylboronic acids and a palladium catalyst to give the aryl alkyne (R—C=C—Ar). 1-TrialkyIsilylalkynes (R3Si—C=C—R ) were coupled... 

A synthesis of tylophorine 6.207 used an electron-rich arene as the carbon nucleophile (Scheme 6.92). The substrate was constructed by a sequence of two Suzuki couplings (Section 2.6), first an aryl-aryl coupling between iodide 6.201 and boronic acid 6.202, then an aryl-alkyne coupling, using an alkyne boronate 6.204 derived from proline. Platinum-catalysed cyclization generated the pyrrolidine 6.206, and the synthesis was completed by a one-pot deprotection-Pictet-Spengler reaction. 

This protocol recently rose in appeal by the observation of Gau et al. that 4 mol% of cheap [NiCl2(PPh3)2] catalyzes such aryl-alkyne couplings with an even higher efficiency [146]. Moreover, various benzyl bromides as well as bromomethyl-substituted heteroarenes were alkynylated in yields exceeding 90% when diethyl ether was used as the solvent. These nickel-catalyzed benzyl-alkynyl couplings... 

The perfluoroacetylenic copper compounds undergo coupling reactions with aryl iodides and provide a useful synthetic route to the perfluoroalkyl aryl alkynes [147, 255] (equation 170) Coupling of these copper reagents with the 1-iodo-perfluoroalkynes gives the perfluorodiynes [747 255] (equation 171)... 

Haloalkynes (R—C=C—X) react with ArSnBu3 and Cul to give R—C= C—Ar. Acetylene reacts with two equivalents of iodobenzene, in the presence of a palladium catalyst and Cul, to give 1,2-diphenylethyne. 1-Trialkylsilyl alkynes react with 1-haloalkynes, in the presence of a CuCl catalyst, to give diynes and with aryl triflates to give 1-aryl alkynes. Alkynes couple with alkyl halides in the presence of Sml2/Sm. Alkynes react with hypervalent iodine compounds " and with reactive alkanes such as adamantane in the presence of AIBN. ... 

Scheme 16 sp-sp C-C bond formation via Fe(OTf)3ATfOH-cocatalyzed coupling reaction of terminal aryl alkynes with benzylic alcohols... 

A palladium catalyst with a less electron-rich ligand, 2,2-dipyridyl-methylamine-based palladium complexes (4.2), is effective for coupling of aryl iodides or bromides with terminal alkynes in the presence of pyrrolidine and tetrabutylammonium acetate (TBAB) at 100°C in water.37 However, the reactions were shown to be faster in NMP solvent than in water under the reaction conditions. Palladium-phosphinous acid (POPd) was also reported as an effective catalyst for the Sonogashira cross-coupling reaction of aryl alkynes with aryl iodides, bromides, or chlorides in water (Eq. 4.18).38... 

A rapid MW-assisted palladium-catalyzed coupling of heteroaryl and aryl boronic acids with iodo- and bromo-substituted benzoic acids, anchored on TentaGel has been achieved [174]. An environmentally friendly Suzuki cross-coupling reaction has been developed that uses polyethylene glycol (PEG) as the reaction medium and palladium chloride as a catalyst [175]. A solventless Suzuki coupling has also been reported on palladium-doped alumina in the presence of potassium fluoride as a base [176], This approach has been extended to Sonogashira coupling reaction wherein terminal alkynes couple readily with aryl or alkenyl iodides on palladium-doped alumina in the presence of triphenylphosphine and cuprous iodide (Scheme 6.52) [177]. 

The synthetic approach to the benzo[fo]furan is similar to that of the thiophenes described in Scheme 39. The synthetic approach was described by Flynn et al. [73], and an example synthesis is given in Scheme 40. The appropriate iodophenol 104 is coupled to the aryl alkyne 111. The intermediate 155 is subsequently cyclized in the presence of an appropriately substituted aryl iodide, e.g., 107 under an atmosphere of carbon monoxide gas, to give the benzo[fr]furan chalcone derivative 156. Deprotection of the hydroxyl produces the target compound 157. 

Flynn et al., also described the synthesis of the fused indoles [73]. The o-iodotrifluoroacetanilide 110 was coupled to aryl alkyne 111 under Sono-gashira conditions followed by subsequent reaction with aryl iodide, 107 with gaseous carbon dioxide produced the fused indole 158. Lewis acid dealkylation with aluminum trichloride produced the deprotected alcohol 159. 

Keywords aryl iodide, terminal alkyne, Sonogashira coupling, KF-alumina, microwave irradiation, aryl alkyne... 

Ethynyl-3-pyridinols undergo coupling with iodoarenes, aryl triflates, and enol triflates in the presence of PdCl2(PPh3)2 and Cul. Nucleophilic attack of oxygen onto the arylated alkyne product occurs in situ to give... 

Conditions based on stoichiometric amounts of silver oxide have been developed by Mori et al. for the synthesis of arylated alkynes from terminal alkynes and aryl iodides. Under such conditions, neither silylated alkynes nor aryl bromides or triflates did not undergo coupling (Scheme 10.78).129,130... 

Fig. 16.30. Pd(0)-catalyzed arytation of a copper acetytide at the beginning of a three-step synthesis of an ethynyt aromatic compound. Mechanistic details of the C,C coupling Step 1 formation of a complex between the catalytically active Pd(0) complex and the arylating agent. Step 2 oxidative addition of the arylating agent and formation of a Pd(II) complex with a cr-bonded aryl moiety. Step 3 formation of a Cu-acetylide. Step 4 trans-metalation the alkynyl-Pd compound is formed from the alkynyl-Cu compound via ligand exchange. Step 5 reductive elimination to form the -complex of the arylated alkyne. Step 6 decomposition of the complex into the coupling product and the unsaturated Pd(0) species, which reenters the catalytic cycle anew with step 1.

Halofuran and halothiophene derivatives undergo photochemical reactions with arylalkenes and arylalkynes and with benzo[6]furan513,514. With the arylalkenes and aryl-alkynes, heteroarylation takes place at the terminal alkene or alkyne carbon atom, while benzo[6]furan is substituted at position 2. The experimental results are interpreted in terms of solvent-separated or contact radical ion pairs. Iodothiophene and iodofuran derivatives can also be used to synthesize derivatives of benzimidazole by means of photochemical coupling515. The reaction of 5-iodothiophene-2-carboxaldehyde (157) with benzimidazole (158) giving the coupling product 159 is illustrated in equation 131. 

Iodobenzyl 2-butynyl ethers undergo a Pd-mediated cyclisation with terminal alkynes to give lf/-[2]benzopyrans. The absence of a Cu(I) co-catalyst allows an intramolecular 6-exo-dig cyclisation to compete successfully with an intermolecular Sonogashira aryl-alkynyl coupling <02T9007>. 

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