87587-26-6

Basic information

• Product Name: Benzenemethanamine, N-[2-(phenylethynyl)phenyl]-
• CAS NO: 87587-26-6
• Molecular Formula: C21H17N
• Molecular Weight: 283.373
• Mol File: 87587-26-6.mol

Chemical Properties

• CAS DataBase Reference: Benzenemethanamine, N-[2-(phenylethynyl)phenyl]-(CAS DataBase Reference)
• NIST Chemistry Reference: Benzenemethanamine, N-[2-(phenylethynyl)phenyl]-(87587-26-6)
• EPA Substance Registry System: Benzenemethanamine, N-[2-(phenylethynyl)phenyl]-(87587-26-6)

Safety Data

• Hazardous Substances Data: 87587-26-6(Hazardous Substances Data)

Upstream product

• 47461-44-9 tris-(phenylethynyl)aluminum 
• 87587-23-3 N-benzyl-N-phenyl-O-(trimethylsilyl)hydroxylamine 
• 76464-99-8 N-benzyl-2-iodoaniline 
• 536-74-3 phenylacetylene 
• 13141-38-3 2-phenylethynylaniline 
• 620-05-3 iodomethylbenzene 
• 15111-14-5 2-iodo-N-(phenylmethylene)-benzenamine 
• 615-43-0 2-iodophenylamine 
• 2170-06-1 1-Phenyl-2-(trimethylsilyl)acetylene 
• 100-52-7 benzaldehyde 
• 100-39-0 benzyl bromide 

Downstream Products

• 71687-76-8 (E)-1-benzyl-3-benzylidene-1,3-dihydro-indol-2-one 
• 52604-15-6 1-benzyl-2-phenyl-1H-indole 
• 1380395-20-9 methyl 1-benzyl-2-phenyl-1H-indole-3-carboxylate 
• 1429782-49-9 (Z)-1-benzyl-4-benzylidene-1H-benzo[d][1,3]thiazine-2(4H)-thione 
• 1616706-73-0 bis(1-benzyl-2-phenyl-1H-indol-3-yl)methanone 
• 1615653-07-0 N-benzyl-2-oxo-2-phenyl-N-(2-phenylethynylphenyl)acetamide 
• 142677-04-1 1-benzyl-2-phenyl-1H-indole-3-carbaldehyde 
• 1633007-87-0 N-benzyl-N-(2-(phenylethynyl)phenyl)-methacrylamide 

Relevant articles and documents

Visible-Light-Mediated [2+2+1] Carbocyclization Reactions of 1,7-Enynes with Bromofluoroacetate to Form Fused Monofluorinated Cyclopenta[ c]quinolin-4-ones

Herein, we describe a new protocol for photoinduced radical [2+2+1] carbocyclization reactions of 1,7-enynes with bromofluoroacetate. These reactions, which proceed via a cascade involving fluoroalkylation, 6-exo-dig and 5-endo-trig cyclizations, H-transf

Indazole 2-oxides compound and method for preparing indazole 2-oxides compound for providing a nitrogen heterocyclic compound used as a precursor for drugs

Provided is a method for preparing an indazole 2-oxides compound, which comprises the step of: performing a cyclization reaction on 2-alkynyl aniline compound and tert-butylnitrite represented by formula (1) in the presence of bis(dibenzylideneacetone) palladium so as to produce an indazole 2-oxides compound, in which, in the formulae (1) and (2), R1 , R2 , R3 and R4 are each hydrogen, halogen or alkyl group; X1 represents an alkyl group, a first chemical structure, a second chemical structure or a third chemical structure where T1 , T2 , T3 , T4 and T5 are each hydrogen, halogen, alkoxy group, or alkyl group; X2 represents hydrogen, cycloalkyl group, alkyl group, alkenyl group, thienyl group, unsubstituted phenyl group, or substituted phenyl group, where the substituent is selected from the group consisting of an alkyl group, an alkoxy group, a halogen, a haloalkyl group, -CN, or -NO2.

Copper-Catalyzed Annulation Cascades of Alkyne-Tethered α-Bromocarbonyls with Alkynes: An Access to Heteropolycycles

We here describe a new Cu-catalyzed annulation cascade of alkyne-tethered α-bromocarbonyls with common alkynes for the synthesis of various heteropolycycle frameworks, including 1H-benzo[de]quinolin-2(3H)-ones, 4H-dibenzo[de,g]quinolin-5(6H)-one, and benzo[de]chromen-2(3H)-one, which were constructed with high selectivity. This was achieved by two-component annulation cascades, rather than atom-transfer radical cyclization (ATRC), with alkyne-tethered α-bromocarbonyls for one-step accessing heteropolycycles via C-Br bond split, intramolecular cyclization, intermolecular [4 + 2] annulation, and aryl C(sp2)-H functionalization cascades.

Bis(dibenzylideneacetone)palladium(0)/tert-Butyl Nitrite- Catalyzed Cyclization of o-Alkynylanilines with tert-Butyl Nitrite: Synthesis and Applications of Indazole 2-Oxides

An efficient method for the synthesis of 1-benzyl/arylindazole 2-oxides via a bis(dibenzylideneacetone)palladium(0) [Pd(dba)2]/tert-butyl nitrite (TBN)-catalyzed reaction of o-alkynylaniline derivatives with TBN is reported. The overall transfo

Borane-catalyzed indole synthesis through intramolecular hydroamination

The reaction of 2-alkynyl anilines with catalytic amounts of B(C6F5)3 (5 mol%) resulted in the formation of 2-substituted indoles according to an intramolecular hydroamination in good to excellent yields. Reaction intermediates as well as products were characterized by NMR spectroscopy and by X-ray crystallography. The domino hydroamination/hydrogenation sequence allowed the efficient synthesis of tetrahydroquinoline 8 in good yield.

Stereoselective Synthesis of Methylene Oxindoles via Palladium(II)-Catalyzed Intramolecular Cross-Coupling of Carbamoyl Chlorides

We report a highly robust, general and stereoselective method for the synthesis of 3-(chloromethylene)oxindoles from alkyne-tethered carbamoyl chlorides using PdCl2(PhCN)2 as the catalyst. The transformation involves a stereo- and regioselective chloropalladation of an internal alkyne to generate a nucleophilic vinyl PdII species, which then undergoes an intramolecular cross-coupling with a carbamoyl chloride. The reaction proceeds under mild conditions, is insensitive to the presence of moisture and air, and is readily scalable. The products obtained from this reaction are formed with >95:5 Z:E selectivity in nearly all cases and can be used to access biologically relevant oxindole cores. Through combined experimental and computational studies, we provide insight into stereo- and regioselectivity of the chloropalladation step, as well as the mechanism for the C-C bond forming process. Calculations provide support for a mechanism involving oxidative addition into the carbamoyl chloride bond to generate a high valent PdIV species, which then undergoes facile C-C reductive elimination to form the final product. Overall, the transformation constitutes a formal PdII-catalyzed intramolecular alkyne chlorocarbamoylation reaction.

Aminoboration: Addition of B-N ? Bonds across C-C ?€ Bonds

This communication demonstrates the first catalytic aminoboration of C-C π bonds by B-N δ bonds and its application to the synthesis of 3-borylated indoles. The regiochemistry and broad functional group compatibility of this addition reaction enable substitution patterns that are incompatible with major competing technologies. This aminoboration reaction effects the formation of C-B and C-N bonds in a single step from aminoboronic esters, which are simple starting materials available on the gram scale. This reaction generates synthetically valuable N-heterocyclic organoboron compounds as potential building blocks for drug discovery. The working mechanistic hypothesis involves a bifunctional Lewis acid/base catalysis strategy involving the combination of a carbophilic gold cation and a trifluoroacetate anion that activate the C-C π bond and the B-N δ bond simultaneously.

An Exclusively trans-Selective Chlorocarbamoylation of Alkynes Enabled by a Palladium/Phosphaadamantane Catalyst

Pharmaceutically relevant methylene oxindoles are synthesized by a palladium(0)-catalyzed intramolecular chlorocarbamoylation reaction of alkynes. A relatively underexplored class of caged phosphine ligands is uniquely suited for this transformation, enab

[Cp?IrCl2]2-catalysed cyclization of 2-alkynylanilines into indoles

[Cp?IrCl2]2 catalyses the cyclization of 2-alkynylanilines into indoles. A wide variety of substrates is tolerated. A reaction pathway involving intramolecular hydroamination is proposed.

Silver-catalyzed one-pot cyclization/fluorination of 2-alkynylanilines: Highly efficient synthesis of structurally diverse fluorinated indole derivatives

Highly efficient approaches to obtain structurally diverse fluorinated indole derivatives have been realized through the Ag-catalyzed one-pot cyclization/fluorination of 2-alkynylanilines in the presence of NFSI or Selectfluor. The Royal Society of Chemistry.