40751-52-8

Basic information

• Product Name: Benzonitrile, 2-(1-methylethyl)-
• Synonyms: 2-Isopropyl-1-benzonitrile;2-(i-Pr)-C6H4CN;Benzonitrile,2-(1-methylethyl);2-Isopropyl-benzonitrile;2-Isopropyl-benzonitril
• CAS NO: 40751-52-8
• Molecular Formula: C10H11N
• Molecular Weight: 145.204
• Mol File: 40751-52-8.mol

Chemical Properties

• Boiling Point: 105-107 °C(Press: 16 Torr)
• Density: 0.96±0.1 g/cm3(Predicted)
• CAS DataBase Reference: Benzonitrile, 2-(1-methylethyl)-(CAS DataBase Reference)
• NIST Chemistry Reference: Benzonitrile, 2-(1-methylethyl)-(40751-52-8)
• EPA Substance Registry System: Benzonitrile, 2-(1-methylethyl)-(40751-52-8)

Safety Data

• Hazardous Substances Data: 40751-52-8(Hazardous Substances Data)

Upstream product

• 544-92-3 copper(I) cyanide 
• 643-28-7 2-isopropylaniline 
• 7073-94-1 1-bromo-2-isopropylbenzene 
• 98-82-8 Isopropylbenzene 
• 19099-54-8 2-isopropyliodobenzene 
• 13435-20-6 tetraethylammoniumcyanide 
• 873-32-5 2-Chlorobenzonitrile 
• 77047-87-1 isopropylzinc(II) bromide 
• 591-87-7 Allyl acetate 
• 2042-37-7 o-cyanobromobenzene 
• 1068-55-9 isopropylmagnesium chloride 
• 77047-87-1 isopropyl zinc bromide 
• 75-05-8 acetonitrile 
• 623-26-7 terephthalonitrile 

Downstream Products

• 2438-04-2 2-isopropylbenzoic acid 
• 56177-33-4 2-isopropylbenzamide 
• 71254-87-0 1-(2-Isopropyl-phenyl)-2-phenyl-propan-1-one 
• 19103-09-4 (2-isopropylphenyl)(phenyl)methanone 
• 129976-23-4 1-o-cumyl-3-phenyl-1-butanone 
• 6623-98-9 2-Isopropylbenzoesaeuremethylester 
• 129976-25-6 1-(2-Isopropyl-phenyl)-2-methyl-2-phenyl-propan-1-one 

Relevant articles and documents

SUBSTITUTED HETEROCYCLIC AMIDE COMPOUND AND PREPARATION METHOD THEREFOR AND PHARMACEUTICAL USE THEREOF

Provided are a substituted heterocyclic amide compound having a selective inhibitory effect on RIPK1, and a pharmaceutically acceptable salt, a stereoisomer, a solvate or a prodrug thereof, and a pharmaceutical composition containing the compound, and the

Pd-PEPPSI-IHeptCl: A General-Purpose, Highly Reactive Catalyst for the Selective Coupling of Secondary Alkyl Organozincs

Dichloro[1,3-bis(2,6-di-4-heptylphenyl)imidazol-2-ylidene](3-chloropyridyl)palladium(II) (Pd-PEPPSI-IHeptCl), a new, very bulky yet flexible Pd–N-heterocyclic carbene (NHC) complex has been evaluated in the cross-coupling of secondary alkylzinc

Pd Catalysis in Cyanide-Free Synthesis of Nitriles from Haloarenes via Isoxazolines

A method to obtain aryl nitriles from the corresponding halides by Pd catalysis, in the absence of any cyanide source, is reported. The reaction of an aryl halide, ethyl nitroacetate, and an olefin readily delivers an aromatic nitrile. A variety of aryl iodides/bromides have been converted into the corresponding cyanoarenes in fair to excellent yields. The reaction likely involves the following steps: (a) Pd-catalyzed α-arylation of ethyl nitroacetate; (b) nitrile oxide formation; (c) [3 + 2]-cycloaddition with an olefin to provide an isoxazoline; (d) isoxazoline cleavage to benzonitrile formation.

Visible-Light-Mediated Aromatic Substitution Reactions of Cyanoarenes with 4-Alkyl-1,4-dihydropyridines through Double Carbon-Carbon Bond Cleavage

Novel aromatic substitution reactions of cyanoarenes with 4-alkyl-1,4-dihydropyridines as alkylating reagents in the presence of a catalytic amount of a photoredox catalyst proceed smoothly to give the corresponding alkyl-substituted arenes in good to high yields. The present reaction system realizes a novel C-C bond-forming reaction between two fragments generated from the C-C bond-cleavage reactions of two independent substrates.

Acetonitrile as a cyanating reagent: Cu-catalyzed cyanation of arenes

A novel approach to the Cu-catalyzed cyanation of simple arenes using acetonitrile as an attractive cyano source has been documented. The C-H functionalization of arenes without directing groups involves a sequential iodination/cyanation to give the desired aromatic nitriles in good yields. A highly efficient Cu/TEMPO system for acetonitrile C-CN bond cleavage has been discovered. TEMPO is used as a cheap oxidant and enables the reaction to be catalytic in copper. Moreover, TEMPOCH2CN 6 has been identified as the active cyanating agent and shows high reactivity for forming the -CN moiety.

Practical one-pot conversion of aryl bromides and β-bromostyrenes into aromatic nitriles and cinnamonitriles

Various aryl bromides were efficiently converted into the corresponding aromatic nitriles in good yields by the treatment with Mg turnings and subsequently DMF, followed by treatment with molecular iodine and aq NH 3. The same treatment of aryl bromides, which are weakly reactive to Mg turnings, with iPrMgCl·LiCl and subsequently DMF, followed by the treatment with molecular iodine and aq NH3 also afforded the corresponding aromatic nitriles in good yields. On the other hand, when N-formylpiperidine was used instead of DMF, p-substituted β-bromostyrenes were converted into the corresponding p-substituted cinnamonitriles, i.e., α,β-unsaturated nitriles, in good to moderate yields by the same procedure. The reactions were carried out by means of a simple experimental procedure and did not require any toxic metal cyanides or expensive rare metals. Therefore, the present reactions are practical and environmentally benign one-pot methods for the preparation of aromatic nitriles, cinnamonitriles, and aliphatic nitriles from aryl bromides, β-bromostyrenes, and alkyl bromides, respectively, through the formation of Grignard reagents and their DMF or N-formylpiperidine adducts.

Copper-catalyzed oxidative cyanation of aryl halides with nitriles involving carbon-carbon cleavage

A novel, general route for the synthesis of aromatic nitriles is presented that proceeds through Cu(OAc)catalyzed oxidative cyanation of aryl halides using commercially available nitriles as the cyanide sources and Ag/air as the oxidizing agent. It is noteworthy that this work provides a new example of using acetonitrile as the cyanide source for aromatic nitrile synthesis through a Cu-catalyzed oxidative C-C bond cleavage and cyanation process.

Pd-PEPPSI-IPentCl: A highly effective catalyst for the selective cross-coupling of secondary organozinc reagents

No migration? No problem. A series of new N-heterocyclic carbene based Pd complexes has been created and evaluated in the Negishi cross-coupling of aryl and heteroaryl chlorides, bromides, and triflates with a variety of secondary alkylzinc reagents (see scheme). The direct elimination product is nearly exclusively formed; in most examples there is no migratory insertion at all. Copyright

Pd-PEPPSI-IPentCl: A highly effective catalyst for the selective cross-coupling of secondary organozinc reagents

No migration? No problem! A series of new N-heterocyclic carbene based Pd complexes has been created and evaluated in the Negishi cross-coupling of aryl and heteroaryl chlorides, bromides, and triflates with a variety of secondary alkylzinc reagents (see scheme). The direct elimination product is nearly exclusively formed; in most examples there is no migratory insertion at all. Copyright

Negishi cross-coupling of secondary alkylzinc halides with aryl/heteroaryl halides using Pd-PEPPSI-IPent

Pd-PEPPSI-IPent has proven to be an excellent catalyst for the Negishi cross-coupling reaction of secondary alkylzinc reagents with a wide variety of aryl/heteroaryl halides. Importantly, β-hydride elimination/migratory insertion of the organometallic leading to the production of isomeric coupling products has been significantly reduced using the highly-hindered Ipent ligand.