27179-73-3Relevant academic research and scientific papers
Suzuki coupling of 2-chloroacrylonitrile, methyl 2-chloroacrylate, or 2-chloroprop-1-en-3-ol with arylboronic acids catalyzed by a palladium-tetraphosphine complex
Berthiol, Florian,Doucet, Henri,Santelli, Maurice
, p. 3019 - 3027 (2006)
The tetraphosphine all-cis-1,2,3,4-tetrakis(diphenylphosphinomethyl) cyclopentane (Tedicyp) in combination with [Pd(C3H 5)Cl]2 affords an efficient catalyst of the coupling of 2-chloroacrylonitrile with arylboronic acids.
A simple and regioselective conversion of terminal acetylene into 2-substituted acrylonitrile
Luo, Fen-Tair,Ko, Sheng-Li,Chao, Dean-Yang
, p. 8061 - 8062 (1997)
Treatment of terminal acetylene with in situ generated hydrogen iodide and followed by the reaction with cuprous cyanide provided a simple and regioselective transformation of acetylene into 2-substituted acrylonitrile in fair to good yields.
Nickel-Catalyzed Cyanation of Aryl Halides and Hydrocyanation of Alkynes via C-CN Bond Cleavage and Cyano Transfer
Chen, Hui,Sun, Shuhao,Liu, Yahu A.,Liao, Xuebin
, p. 1397 - 1405 (2020/02/04)
We report nickel-catalyzed cyanation and hydrocyanation methods to prepare aryl nitriles and vinyl nitriles from aryl halides and alkynes, respectively. Using inexpensive and nontoxic 4-cyanopyridine N-oxide as the cyano shuttle, the methods provide an efficient approach to prepare aryl cyanides and vinyl nitriles under mild and operationally simple reaction conditions with a broad range of functional group tolerances. In hydrocyanation of alkynes, the method demonstrated good regioselectivity, producing predominantly E- or Z-alkenyl nitriles in a controlled manner and exclusively Markovnikov vinyl nitriles when internal diaryl alkynes and terminal alkynes were applied as the substrates, respectively. The preliminary mechanistic investigation indicated that the C-CN bond cleavage process is promoted by oxidative addition to the nickel(I) complex in the cyanation of aryl halides, and further studies via a series of deuterium exchange experiments indicated that water serves as the hydrogen source for the hydrocyanation of alkynes.
Method for preparing alkenyl cyanide compounds
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Paragraph 0100; 0291-0293, (2019/10/23)
The invention discloses a method for preparing alkenyl cyanide compounds represented by formula II. Alkynes represented by formula I and a cyanation reagent are subjected to a reduction reaction represented by a formula shown in the description in an organic solvent under the protection of a gas at 20-100 DEG C under the action of a nickel catalyst, a reducing agent and H2O to prepare the alkenyl cyanide compounds represented by formula II. The preparation method of the invention, which adopts the cheap nickel as the catalytic system, has the advantages of simplicity in operation, mild reaction conditions, good compatibility of functional groups, wide application range of the substrate, high reaction efficiency and high yield, so the method has high application and promotion values.
Nickel-Catalyzed Highly Regioselective Hydrocyanation of Terminal Alkynes with Zn(CN)2 Using Water as the Hydrogen Source
Zhang, Xingjie,Xie, Xin,Liu, Yuanhong
supporting information, p. 7385 - 7389 (2018/06/11)
The first efficient and general nickel-catalyzed hydrocyanation of terminal alkynes with Zn(CN)2 in the presence of water has been developed. The reaction provides a regioselective protocol for the synthesis of functionalized vinyl nitriles with a range of structural diversity under mild reaction conditions while obviating use of the volatile and hazardous reagent of HCN. Deuterium-labeling experiments confirmed the role of water as the hydrogen source in this hydrocyanation reaction.
Enantioselective synthesis of (R)-2-arylpropanenitriles catalysed by ene-reductases in aqueous media and in biphasic ionic liquid-water systems
Brenna, Elisabetta,Crotti, Michele,Gatti, Francesco G.,Manfredi, Alessia,Monti, Daniela,Parmeggiani, Fabio,Santangelo, Sara,Zampieri, Davila
, p. 2425 - 2431 (2014/08/18)
The enantioselective reduction of α-methylene nitrile derivatives catalysed by ene-reductases affords the corresponding (R)-2-arylpropanenitriles with high conversion values. The reaction is investigated either in aqueous medium (with an organic cosolvent or by loading the substrate onto hydrophobic resins) or in a biphasic ionic liquid-water system. The use of ionic liquids, herein with isolated ene-reductases, is found to improve the work-up and the substrate recovery method. The synthetic manipulation of the final chiral nitrile derivatives indicates how this biocatalysed method can be exploited for the preparation of a wide range of chiral compounds.
