402-24-4Relevant articles and documents
Functionalization of Alkenyl C-H Bonds with D 2 O via Pd(0)/Carboxylic Acid Catalysis
Bigi, Franca,Camedda, Nicola,Cera, Gianpiero,Maestri, Giovanni,Maggi, Raimondo,Serafino, Andrea
supporting information, p. 1762 - 1772 (2020/06/08)
We report herein a simple catalytic method for the extensive labeling of alkenyl C-H bonds through the combination of a palladium(0) complex and a carboxylic acid in the presence of deuterium oxide. The reaction can be applied to a variety of terminal alkenes and the best results are obtained with aryl-substituted examples. This method represents a convenient approach for the preparation of extensively labeled chemicals from the cheapest and safest source of deuterium.
Synthesis of α-pyrones by catalytic oxidative coupling of terminal alkynes and carbon dioxide
Oliveros-Cruz, Saray,Arévalo, Alma,García, Juventino J.
, p. 18 - 22 (2017/01/10)
The use of the complex [(dippe)Ni(μ-H)]2(1) as a catalyst precursor (10?mol%) in the presence of a variety of terminal alkynes and CO2allowed the production of substituted α–pyrones. This reaction occurs using relatively mild conditions (50?°C, 150 psi of CO2) with good to modest yields, depending on the nature of the substituents in the corresponding alkyne. The produced α–pyrones were characterized by different analytical methods and spectroscopic techniques.
Structurally Defined Molecular Hypervalent Iodine Catalysts for Intermolecular Enantioselective Reactions
Haubenreisser, Stefan,W?ste, Thorsten H.,Martnez, Claudio,Ishihara, Kazuaki,Muiz, Kilian
supporting information, p. 413 - 417 (2016/01/25)
Molecular structures of the most prominent chiral non-racemic hypervalent iodine(III) reagents to date have been elucidated for the first time. The formation of a chirally induced supramolecular scaffold based on a selective hydrogen-bonding arrangement provides an explanation for the consistently high asymmetric induction with these reagents. As an exploratory example, their scope as chiral catalysts was extended to the enantioselective dioxygenation of alkenes. A series of terminal styrenes are converted into the corresponding vicinal diacetoxylation products under mild conditions and provide the proof of principle for a truly intermolecular asymmetric alkene oxidation under iodine(I/III) catalysis.