100337-64-2

Upstream product

• 14213-54-8 2-Benzyl-3-phenylpropyldimethylammonium-iodid 
• 917-64-6 methyl magnesium iodide 
• 102-04-5 1,3-Diphenylpropanone 
• 28557-00-8 phenylzinc chloride 
• 673-32-5 1-Phenylprop-1-yne 
• 620-05-3 iodomethylbenzene 
• 591-51-5 phenyllithium 
• 252975-30-7 selenophosphoric acid Se-(1-benzoyl-1-methyl-2-oxo-2-phenylethyl) ester O,O-diethyl ester 
• 1504-55-8 (E)-3-phenyl-2-methyl-2-propenol 
• 98-80-6 phenylboronic acid 
• 119244-56-3 1,3-diphenyl-1-<(trimethylsilyl)oxy>-2-methyl-1-propene 
• 849943-87-9 (Z)-1,3-diphenylprop-1-en-2-yl 4-methylbenzenesulfonate 
• 13061-96-6 dihydroxy-methyl-borane 
• 6921-34-2 benzylmagnesium chloride 

Downstream Products

• 57338-06-4 1,2-epoxy-2-methyl-1,3-diphenyl-propane 
• 2883-08-1 1,3-dicyclohexyl-2-methyl-propane 
• 94897-34-4 3,4-diphenyl-2-butanone 
• 1370037-96-9 (E)-butyl 3-(2-((E)-2-methyl-3-phenylallyl)phenyl)acrylate 

Relevant academic research and scientific papers

THE STEREOCHEMISTRY OF THE DIBENZYLIDENE-ETHYLENE DIANION

Quench reactions, 13C nmr spectra and MNDO molecular orbital calculations all suggest the title dianion to prefer the exo,exo-conformation, like the 1,3-diphenyl allyl anion, but in contrast to 2-substituted 1,3-diphenyl allyl anions.

Allyl- And Benzylindium Reagents. Carboindation of Carbon-Carbon and Carbon-Nitrogen Triple Bonds

The reaction of unactivated simple terminal alkynes 1 with allylindiums in THF proceeded smoothly to give the corresponding allylation products 2 in good to high yields. This result is in marked contrast to that of the reaction carried out in DMF, where the allylation of unactivated alkynes was very sluggish. The allylic group of the reagent was attached to the internal carbon of the triple bond, and indium was attached to the less substituted terminal carbon, except for the case of TMS substituted acetylenes 1j and 1k in which the allyl group went to the less substituted carbon of the triple bond. The reaction of unactivated simple terminal and certain internal acetylenes with benzylindium in THF proceeded smoothly to afford the corresponding benzylation products 18 in good to high yields. The benzyl group was attached to the less substituted unhindered carbon of the triple bond, and indium was attached to the more sterically congested carbon. The reaction of activated nitriles 3 with allylindiums in THF at 70°C gave the corresponding allylationenamination products 4 in high to excellent yields. This reaction provides a useful method for the synthesis of highly functionalized enamines, which are not easily available via conventional methods. The mechanisms on the above three indation reactions are discussed.

Regioselectivity in the Addition of Carbon Nucleophiles to 1-Fluoro and 1,1-Difluoro ?-Allylpalladium Complexes

Attack on 1-fluoro and 1,1-difluoro ?-allylpalladium complexes by stabilized carbon nucleophiles occurs preferentially at the nonfluorinated terminus, whereas the attack of a nonstabilized carbon nucleophile takes place at the fluorinated end.

Iron-Catalyzed Remote Arylation of Aliphatic C-H Bond via 1,5-Hydrogen Shift

Catalytic amounts of an iron(III) salt and a N-heterocyclic carbene ligand catalyze the arylation of 2-iodoalkylarenes with diphenylzinc selectively at the C-H bond of the alkyl side chain. Several lines of evidence suggest that the iron catalyst reacts with the aryl iodide moiety of the substrate to generate an aryliron intermediate that behaves in a radical manner and cleaves the aliphatic C-H bond through 1,5-hydrogen transfer; the resulting alkyliron intermediate undergoes reductive elimination to give the arylated product.

Bis-quinoline-2-carboxylic acid Copper Salt as an Efficient Catalyst for Synthesis of Aryl Olefins by Heck Reaction

Abstract: A bis-quinoline-2-carboxylic acid copper salt as a single crystal was prepared and characterized by X-ray single crystal analysis. The crystal as a catalyst was applied to the Mizoroki–Heck coupling reaction between arylboronic acids and α-olefins. A series of diarylethenes and aryl olefins were synthesized with good to excellent yields at room temperature. The catalytic system exhibited good functional group tolerance and low pollution. Graphic Abstract: A bis-quinoline-2-carboxylic acid copper salt as a single crystal was prepared and characterized by X-ray single crystal analysis. The crystal as a catalyst was applied to the Mizoroki–Heck coupling reaction between arylboronic acids and α-olefins[InlineMediaObject not available: see fulltext.].

Nickel-Catalyzed Arylation of C(sp3)-O Bonds in Allylic Alkyl Ethers with Organoboron Compounds

A nickel-catalyzed cross-coupling of allylic alkyl ethers with organoboron compounds through the cleavage of the inert C(sp3)-O(alkyl) bonds is described. Several types of allylic alkyl ethers can be coupled with various boronic acids or their derivatives to give the corresponding products in good to excellent yields with wide functional group tolerance and excellent regioselectivity. The gram-scale reaction and late-stage modification of biologically active compounds further prove the practicality of this synthetic method.

Nickel-Catalyzed Direct Coupling of Allylic Alcohols with Organoboron Reagents

The direct coupling of allylic alcohols with arylboronic acids or their derivatives catalyzed by Ni(cod)2 in the presence of a catalytic amount of base has been developed. A wide variety of allylic substrates or arylboronic acids turned out to be applicable to this catalytic system. The present method does not require the use of ligands for stabilizing the nickel catalyst in most cases or additional activators for activation of allylic alcohols.

Chemo- and regioselective reductive deoxygenation of 1-en-4-yn-ols into 1,4-enynes through FeF3 and TfOH co-catalysis

We report chemo- and regioselective direct reductive deoxygenation of 1-en-4-yn-3-ols into 1,4-enynes through FeF3 and TfOH cooperative catalysis under NBSH-mediated conditions. Further, we show the efficient synthesis of a pharmaceutically significant 1,4-enyne. The present methodology can also be used for chemo- and regioselective direct deoxygenation of other alcohols.

Cross-coupling of N-allylic sulfonimides with organozinc reagents at room temperature

An efficient cross-coupling reaction of N-allylic sulfonimides with organozinc reagents has been developed. In the presence of 1 mol-% of Pd 2(dba)3, a range of N-allylic sulfonimides smoothly couple with various organozinc reagents at room temperature to give the corresponding (E)-alkene products in moderate to excellent yields and with good to exclusive α-selectivity. It is noteworthy that allyl ether, benzyl ether, and ester are tolerated under the reaction conditions. A range of N-allylic sulfonimides smoothly couple with various organozinc reagents in the presence of 1 mol-% of Pd2(dba)3 at room temperature to give the corresponding (E)-alkene products in moderate to excellent yields and with good to exclusive α-selectivity.

Regioselective and stereospecific cross-coupling of primary allylic amines with boronic acids and boronates through palladium-catalyzed C-N bond cleavage

The NH2 group serves as an effective leaving group in the palladium-catalyzed regioselective and stereospecific title reaction (see scheme). The reaction works well with aryl- and alkenylboronic acids and aryl-, alkenyl-, allyl-, and benzylboronates, and complete transfer of chirality has been achieved when using α-chiral primary allylic amines as the allylic electrophiles. Copyright