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4-Butylbenzonitrile, also known as 4-butylaniline, is an organic compound derived from 4-(but-3-enyl)benzonitrile. It is a clear colorless liquid with unique chemical properties that make it suitable for various applications across different industries.

20651-73-4

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20651-73-4 Usage

Uses

Used in Chemical Synthesis Industry:
4-Butylbenzonitrile is used as a chemical intermediate for the synthesis of various organic compounds, including pharmaceuticals, agrochemicals, and specialty chemicals. Its unique structure allows it to be a versatile building block in the development of new molecules with potential applications in various fields.
Used in Flavor and Fragrance Industry:
4-Butylbenzonitrile is used as a flavoring agent and a fragrance ingredient in the food, beverage, and cosmetics industries. Its distinct aroma profile contributes to the creation of unique and appealing scents in various consumer products.
Used in Polymer Industry:
4-Butylbenzonitrile is used as a monomer in the production of polymers and copolymers. Its incorporation into polymer chains can enhance the material's properties, such as thermal stability, mechanical strength, and chemical resistance, making it suitable for various applications, including coatings, adhesives, and plastics.
Used in Dye and Pigment Industry:
4-Butylbenzonitrile is used as a precursor in the synthesis of dyes and pigments. Its ability to form stable chromophores makes it a valuable component in the development of colorants for textiles, paints, and inks.

Check Digit Verification of cas no

The CAS Registry Mumber 20651-73-4 includes 8 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 5 digits, 2,0,6,5 and 1 respectively; the second part has 2 digits, 7 and 3 respectively.
Calculate Digit Verification of CAS Registry Number 20651-73:
(7*2)+(6*0)+(5*6)+(4*5)+(3*1)+(2*7)+(1*3)=84
84 % 10 = 4
So 20651-73-4 is a valid CAS Registry Number.
InChI:InChI=1/C11H13N/c1-2-3-4-10-5-7-11(9-12)8-6-10/h5-8H,2-4H2,1H3

20651-73-4 Well-known Company Product Price

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  • Alfa Aesar

  • (A19174)  4-n-Butylbenzonitrile, 98%   

  • 20651-73-4

  • 5g

  • 549.0CNY

  • Detail
  • Alfa Aesar

  • (A19174)  4-n-Butylbenzonitrile, 98%   

  • 20651-73-4

  • 25g

  • 2139.0CNY

  • Detail
  • Alfa Aesar

  • (A19174)  4-n-Butylbenzonitrile, 98%   

  • 20651-73-4

  • 100g

  • 6807.0CNY

  • Detail

20651-73-4SDS

SAFETY DATA SHEETS

According to Globally Harmonized System of Classification and Labelling of Chemicals (GHS) - Sixth revised edition

Version: 1.0

Creation Date: Aug 12, 2017

Revision Date: Aug 12, 2017

1.Identification

1.1 GHS Product identifier

Product name 4-BUTYLBENZONITRILE

1.2 Other means of identification

Product number -
Other names p-n-butylbenzonitrile

1.3 Recommended use of the chemical and restrictions on use

Identified uses For industry use only.
Uses advised against no data available

1.4 Supplier's details

1.5 Emergency phone number

Emergency phone number -
Service hours Monday to Friday, 9am-5pm (Standard time zone: UTC/GMT +8 hours).

More Details:20651-73-4 SDS

20651-73-4Relevant academic research and scientific papers

Nickel-Catalyzed Cyanation of Aryl Thioethers

Delcaillau, Tristan,Woenckhaus-Alvarez, Adrian,Morandi, Bill

supporting information, p. 7018 - 7022 (2021/09/13)

A nickel-catalyzed cyanation of aryl thioethers using Zn(CN)2 as a cyanide source has been developed to access functionalized aryl nitriles. The ligand dcype (1,2-bis(dicyclohexylphosphino)ethane) in combination with the base KOAc (potassium acetate) is essential for achieving this transformation efficiently. This reaction involves both a C-S bond activation and a C-C bond formation. The scalability, low catalyst and reagents loadings, and high functional group tolerance have enabled both late-stage derivatization and polymer recycling, demonstrating the reaction's utility across organic chemistry.

A Ball-Milling-Enabled Cross-Electrophile Coupling

Jones, Andrew C.,Nicholson, William I.,Leitch, Jamie A.,Browne, Duncan L.

supporting information, p. 6337 - 6341 (2021/08/23)

The nickel-catalyzed cross-electrophile coupling of aryl halides and alkyl halides enabled by ball-milling is herein described. Under a mechanochemical manifold, the reductive C-C bond formation was achieved in the absence of bulk solvent and air/moisture sensitive setups, in reaction times of 2 h. The mechanical action provided by ball milling permits the use of a range of zinc sources to turnover the nickel catalytic cycle, enabling the synthesis of 28 cross-electrophile coupled products.

Nickel-Catalyzed Reversible Functional Group Metathesis between Aryl Nitriles and Aryl Thioethers

Delcaillau, Tristan,Boehm, Philip,Morandi, Bill

supporting information, p. 3723 - 3728 (2021/04/07)

We describe a new functional group metathesis between aryl nitriles and aryl thioethers. The catalytic system nickel/dcype is essential to achieve this fully reversible transformation in good to excellent yields. Furthermore, the cyanide- and thiol-free reaction shows high functional group tolerance and great efficiency for the late-stage derivatization of commercial molecules. Finally, synthetic applications demonstrate its versatility and utility in multistep synthesis.

Scalable Negishi Coupling between Organozinc Compounds and (Hetero)Aryl Bromides under Aerobic Conditions when using Bulk Water or Deep Eutectic Solvents with no Additional Ligands

Dilauro, Giuseppe,Azzollini, Claudia S.,Vitale, Paola,Salomone, Antonio,Perna, Filippo M.,Capriati, Vito

supporting information, p. 10632 - 10636 (2021/04/09)

Pd-catalyzed Negishi cross-coupling reactions between organozinc compounds and (hetero)aryl bromides have been reported when using bulk water as the reaction medium in the presence of NaCl or the biodegradable choline chloride/urea eutectic mixture. Both C(sp3)-C(sp2) and C(sp2)-C(sp2) couplings have been found to proceed smoothly, with high chemoselectivity, under mild conditions (room temperature or 60 °C) in air, and in competition with protonolysis. Additional benefits include very short reaction times (20 s), good to excellent yields (up to 98 %), wide substrate scope, and the tolerance of a variety of functional groups. The proposed novel protocol is scalable, and the practicability of the method is further highlighted by an easy recycling of both the catalyst and the eutectic mixture or water.

Reductive cyanation of organic chlorides using CO2 and NH3 via Triphos–Ni(I) species

Dong, Yanan,Li, Yuehui,Yang, Peiju,Zhao, Shizhen

, (2020/08/19)

Cyano-containing compounds constitute important pharmaceuticals, agrochemicals and organic materials. Traditional cyanation methods often rely on the use of toxic metal cyanides which have serious disposal, storage and transportation issues. Therefore, there is an increasing need to develop general and efficient catalytic methods for cyanide-free production of nitriles. Here we report the reductive cyanation of organic chlorides using CO2/NH3 as the electrophilic CN source. The use of tridentate phosphine ligand Triphos allows for the nickel-catalyzed cyanation of a broad array of aryl and aliphatic chlorides to produce the desired nitrile products in good yields, and with excellent functional group tolerance. Cheap and bench-stable urea was also shown as suitable CN source, suggesting promising application potential. Mechanistic studies imply that Triphos-Ni(I) species are responsible for the reductive C-C coupling approach involving isocyanate intermediates. This method expands the application potential of reductive cyanation in the synthesis of functionalized nitrile compounds under cyanide-free conditions, which is valuable for safe synthesis of (isotope-labeled) drugs.

Preparing method of aromatic nitrile or alkenyl nitrile compound

-

Paragraph 0133-0135; 0139-0141, (2019/10/01)

The invention discloses a preparing method of an aromatic nitrile or alkenyl nitrile compound. The preparing method comprises the following step that under protection of inert gas, an aryl or heteroaryl sulphonate compound shown in a formula II or an alkenyl sulphonate compound shown in a formula IV and a cyanation reagent are subjected to a cross-coupling reaction as is shown below in a solvent under the condition of the presence of a nickel complex, metal zinc and an additive to obtain the aromatic nitrile or alkenyl nitrile compound, wherein 4-dimethylamiopryidine (DMAP) is adopted as the additive, and zinc cyanide is adopted as the cyanation reagent. By means of the preparing method, cyanation of aryl sulphonate, heteroaryl sulphonate or alkenyl sulphonate can be simply and efficientlyachieved with a cheap catalysis system; moreover, the functional group compatibility and substrate universality are good, and a better application prospect and higher using value are provided for achieving industrial synthesis of the aromatic nitrile or alkenyl nitrile compound.

Nickel-catalyzed cyanation of aryl halides and triflates using acetonitrile: Via C-CN bond cleavage assisted by 1,4-bis(trimethylsilyl)-2,3,5,6-tetramethyl-1,4-dihydropyrazine

Ueda, Yohei,Tsujimoto, Nagataka,Yurino, Taiga,Tsurugi, Hayato,Mashima, Kazushi

, p. 994 - 999 (2019/02/03)

We developed a non-toxic cyanation reaction of various aryl halides and triflates in acetonitrile using a catalyst system of [Ni(MeCN)6](BF4)2, 1,10-phenanthroline, and 1,4-bis(trimethylsilyl)-2,3,5,6-tetramethyl-1,4-dihydropyrazine (Si-Me4-DHP). Si-Me4-DHP was found to function as a reductant for generating nickel(0) species and a silylation reagent to achieve the catalytic cyanation via C-CN bond cleavage.

Gram-Scale, Cheap, and Eco-Friendly Iron-Catalyzed Cross-Coupling between Alkyl Grignard Reagents and Alkenyl or Aryl Halides

Cahiez, Gérard,Lefèvre, Guillaume,Moyeux, Alban,Guerret, Olivier,Gayon, Eric,Guillonneau, Lo?c,Lefèvre, Nicolas,Gu, Qinzhuo,Zhou, Edouard

, p. 2679 - 2683 (2019/04/30)

A new robust methodology for gram-scale iron-catalyzed cross-coupling between alkyl Grignard reagents and alkenyl or aryl halides is developed. This method does not require toxic additives such as NMP or expensive ligands. Its efficiency relies on the use of simple alkoxide magnesium salts as additives. On the basis of these results, a new procedure for one-pot synthesis of substituted benzamides from chloroesters is also proposed.

Nickel-Catalyzed Decarbonylative Cyanation of Acyl Chlorides

Wang, Zhenhua,Wang, Xiu,Ura, Yasuyuki,Nishihara, Yasushi

supporting information, p. 6779 - 6784 (2019/08/26)

Ni-catalyzed decarbonylative cyanation of acyl chlorides with trimethylsilyl cyanide has been achieved. This transformation is applicable to the synthesis of an array of nitrile compounds bearing a wide range of functional groups under neutral conditions. The step-by-step experimental studies revealed that the reaction sequences of the present catalytic reaction are oxidative addition, transmetalation, decarbonylation, and reductive elimination.

Preparation method of aromatic nitrile compound or heteroaromatic nitrile compound

-

Paragraph 0043; 0045; 0049-0051, (2018/11/03)

The invention discloses a preparation method of an aromatic nitrile compound or a heteroaromatic nitrile compound. The preparation method comprises: under the protection of an inert gas, in a solvent,under the actions of a nickel catalyst, a ligand, metal zinc and an additive, carrying out a reaction on a cyanation reagent and halogenated aromatic hydrocarbon or halogenated heteroaromatic hydrocarbon. According to the present invention, by using the inexpensive and easily-available nickel catalyst and the ligand, the halogenated aromatic hydrocarbon or halogenated heteroaromatic hydrocarbon,especially the chlorinated aromatic hydrocarbon or chlorinated heteroaromatic hydrocarbon with characteristics of low price, easy obtaining and low reaction activity can mildly and efficiently react with the cyanation reagent with low toxicity to prepare the aromatic nitrile compound or heteroaromatic nitrile compound; and the preparation method has advantages of simple operation, mildness, high efficiency and the like, and further has characteristics of good functional group compatibility, good universality of substrate and the like.

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