5669-19-2Relevant articles and documents
A convenient synthesis of α-benzylacrylic acid
Issa,Andrews,Iskander,Reiss
, p. 1489 - 1494 (1995)
A convenient and reliable two-stage synthesis of α-benzyl-acrylic acid from diethyl benzylmalonate in 72% yield and good purity is reported. The synthesis compares favourably with the other procedures tested.
Macrolactam Synthesis via Ring-Closing Alkene-Alkene Cross-Coupling Reactions
Goh, Jeffrey,Loh, Teck-Peng,Maraswami, Manikantha
supporting information, p. 9724 - 9728 (2020/12/21)
Reported herein is a practical method for macrolactam synthesis via a Rh(III)-catalyzed ring closing alkene-alkene cross-coupling reaction. The reaction proceeded via a Rh-catalyzed alkenyl sp2 C-H activation process, which allows access to macrocyclic molecules of different ring sizes. Macrolactams containing a conjugated diene framework could be easily prepared in high chemoselectivities and Z,E stereoselectivities.
A by 3 - phenyl -1 - methylacetylene preparation quickly disintegrating process method (by machine translation)
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, (2019/07/10)
A by 3 - phenyl - 1 - propyne preparation quickly disintegrating process method, which belongs to the technical field of pharmaceutical intermediates. In the preparation quickly disintegrating in the process, intermediate benzyl acrylic acid yield and purity of the most important, this method first using 3 - phenyl - 1 - propyne as the raw material, in the palladium catalyst Pd2 (Dba)3 And the ligand dppp with ethyl carbonate under the catalysis of the reaction to the one-step synthesis of benzyl acrylic acid, its advantage lies in atmospheric pressure to complete the addition reaction, functional group tolerance is good, high efficiency, high purity, the production process is greatly simplified, and to obtain the target product preparation process of yield and purity than the traditional process much higher. The method has the advantages of greatly improve the productivity, reduce the cost, improve the safety, energy saving and the like, in accordance with the green reaction of modern chemical production requirement. (by machine translation)