122334-36-5Relevant articles and documents
Efficient palladium-catalyzed aminocarbonylation of aryl iodides using palladium nanoparticles dispersed on siliceous mesocellular foam
Tinnis, Fredrik,Verho, Oscar,Gustafson, Karl P. J.,Tai, Cheuk-Wai,Baeckvall, Jan-E.,Adolfsson, Hans
, p. 5885 - 5889 (2014)
A highly dispersed nanopalladium catalyst supported on mesocellular foam (MCF), was successfully used in the heterogeneous catalysis of aminocarbonylation reactions. During the preliminary evaluation of this catalyst it was discovered that the supported palladium nanoparticles exhibited a "release and catch" effect, meaning that a minor amount of the heterogeneous palladium became soluble and catalyzed the reaction, after which it re-deposited onto the support. It's catchy! An efficient palladium-catalyzed protocol for the aminocarbonylation of aryl iodides is reported in which the palladium immobilized on the amino-functionalized mesocellular foam (MCF) was found to operate through a "release and catch" mechanism (see scheme). A very low content of palladium was found in solution upon completion of the reaction and a variety of different aryl iodides were converted to the corresponding amides under mild conditions.
Deoxygenative hydroboration of primary, secondary, and tertiary amides: Catalyst-free synthesis of various substituted amines
Yi, Jaeeun,Kim, Hyun Tae,Jaladi, Ashok Kumar,An, Duk Keun
supporting information, p. 129 - 132 (2021/11/17)
Transformation of relatively less reactive functional groups under catalyst-free conditions is an interesting aspect and requires a typical protocol. Herein, we report the synthesis of various primary, secondary, and tertiary amines through hydroboration of amides using pinacolborane under catalyst-free and solvent-free conditions. The deoxygenative hydroboration of primary and secondary amides proceeded with excellent conversions. The comparatively less reactive tertiary amides were also converted to the corresponding N,N-diamines in moderate yields under catalyst-free conditions, although alcohols were obtained as a minor product.
Phase-Transfer Catalyzed Asymmetric [4 + 1] Annulations for the Synthesis of Chiral 2,2-Disubstituted Tetrahydrothiophenes
Yin, Qi,Wen, Xiaolu,Chen, Yiwei,Gong, Xiangnan,Hu, Lin
supporting information, p. 7529 - 7534 (2021/10/02)
An efficient catalytic asymmetric [4 + 1] reaction, which features the use of simple β-keto esters as one-carbon nucleophiles and 5-succinimidothio-pent-2-enoates as four-atom bielectrophiles, has been developed in the presence of a bifunctional chiral ph