94204-40-7Relevant academic research and scientific papers
OXIDATIVE COUPLING OF ARYL BORON REAGENTS WITH SP3-CARBON NUCLEOPHILES, AND AMBIENT DECARBOXYLATIVE ARYLATION OF MALONATE HALF-ESTERS VIA OXIDATIVE CATALYSIS
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Paragraph 0142; 0143; 0210, (2018/07/29)
Described herein are methods of oxidative coupling of aryl boron reagents with sp3-carbon nucleophiles, and ambient decarboxylative arylation of malonate half-esters via oxidative catalysis.
Oxidative Coupling of Aryl Boron Reagents with sp3-Carbon Nucleophiles: the Enolate Chan-Evans-Lam Reaction
Moon, Patrick J.,Halperlin, Heather M.,Lundgren, Rylan J.
supporting information, p. 1894 - 1898 (2016/08/31)
Reported is a versatile new oxidative method for the arylation of activated methylene species. Under mild reaction conditions (RT to 40 C), Cu(OTf)2 mediates the selective coupling of functionalized aryl boron species with a variety of stabilized sp3-nucl
Oxidative coupling of aryl boron reagents with sp3-carbon nucleophiles: The enolate chan–evans–lam reaction
Moon, Patrick J.,Halperin, Heather M.,Lundgren, Rylan J.
supporting information, p. 1894 - 1898 (2016/12/03)
Reported is a versatile new oxidative method for the arylation of activated methylene species. Under mild reaction conditions (RT to 40°C), Cu(OTf)2mediates the selective coupling of functionalized aryl boron species with a variety of stabilized sp3-nucleophiles. Tertiary malonates and amido esters can be employed as substrates to generate quaternary centers. Complementing either traditional cross-coupling or SNAr protocols, the transformation is chemoselective in the presence of halogen electrophiles, including aryl bromides and iodides. Substrates bearing amide, sulfonyl, and phosphonyl groups, which are not amenable to coupling under mild Hurtley-type conditions, are suitable reaction partners.
Protonation and transformations of α-diazo-β-dicarbonyl compounds in superacids: generation of the strongest carbon-centered cationic electrophiles at the protonation of diazomalonates in Friedel–Crafts reactions
Satumov, Eugeniy T.,Medvedev, Jury J.,Nilov, Denis I.,Sandzhieva, Maria A.,Boyarskaya, Irina A.,Nikolaev, Valerij A.,Vasilyev, Aleksander V.
, p. 4835 - 4844 (2016/07/18)
Protonation of diazodiketones N2C(COR)2in Br?nsted superacids (TfOH, FSO3H, TfOH–SbF5) gives rise to stable and non-reactive O,O-diprotonated at carbonyl oxygens species N2C(C(=OH+)R)2, which were studied by means of1H and13C NMR. Diazomalonates N2C(CO2Alk)2, contrary to diazodiketones, react with TfOH or HF, releasing nitrogen and producing triflates of oxymalonates TfOCH(CO2Alk)2or fluoromalonates FCH(CO2Alk)2, respectively. Diazoketoesters N2C(COR)(CO2Alk) react in the same way only with TfOH, but not with HF. The reactions of diazomalonates with arenes ArH (benzene, toluene, xylenes) in TfOH solution yield corresponding Friedel–Crafts reaction products ArCH(CO2Alk)2. According to performed DFT calculations, trication+CH(C(=OH+)OMe)2, a possible intermediate, which is derived from protonation of dimethyl diazomalonate, should be the strongest cationic carbon-centered electrophile known up to date.
New efficient ligand-free, copper nanoparticle catalyzed coupling reactions of aryl halides with diethyl malonate to produce α-arylation of malonates
Pai, Gita,Chattopadhyay, Asoke P.
, p. 1475 - 1482 (2013/06/27)
Recently synthesized copper nanoparticles (Cu NP) were used to catalyze coupling of aryl halides with diethyl malonates to produce α-aryl malonates. Synthetic conditions, including solvents, relative amounts of reactants, catalyst, and temperature, etc. h
ARYLATION OF DIETHYL MALONATE VIA NUCLEOPHILIC SUBSTITUTION REACTIONS WITH CYCLOPENTADIENYLIRON COMPLEXES OF CHLOROARENES
Abd-El-Aziz, Alaa S.,Lee, Choi Chuck,Piorko, Adam,Sutherland, Ronald G.
, p. 291 - 300 (2007/10/02)
Reaction of an η6-chloroarene-η5-cyclopentadienyliron hexafluorophosphate with diethyl malonate in the presence of K2CO3 in THF/DMSO gave a corresponding SNAr product, η6-diethyl arylmalonate-η5-cyclopentadienyliron hexafluorophosphate, which, upon pyrolic sublimation, resulted in the liberation of the arylated malonic ester.Such esters prepared in the present work included RPhCH(COOEt)2, with R = o-, m- or p-CH3, 2,6-(CH3)2, or o-, m- or p-Cl.
