1240324-75-7Relevant academic research and scientific papers
Palladium-Catalyzed Alkylation with Alkyl Halides by C(sp3)?H Activation
Wu, Zhuo,Ma, Ding,Zhou, Bo,Ji, Xiaoming,Ma, Xiaotian,Wang, Xiaoling,Zhang, Yanghui
, p. 12288 - 12291 (2017)
Utilizing halogens as traceless directing goups represents an attractive strategy for C?H functionalization. A two C?H alkylation system, initiated by the oxidative addition of organohalides to Pd0, has been developed. The first reaction involves an intermolecular alkylation of palladacycles to form C(sp3)?C(sp2) bonds followed by C(sp2)?H activation/cyclization to deliver alkylated benzocyclobutenes as the final products. In the second reaction, two C?C bonds are formed by the reaction of palladacycles with CH2Br2, and provides a facile and efficient method for the synthesis of indanes. The alkylated benzocyclobutene products can be transformed into tricyclic hyrocarbons, and the indane derivatives are essential structural motifs in bioactive and odorant molecules.
New chiral hypervalent iodine(V) compounds as stoichiometric oxidants
Altermann, Sabine M.,Sch?fer, Sascha,Wirth, Thomas
experimental part, p. 5902 - 5907 (2010/09/08)
The synthesis and application of some new hypervalent iodine compounds bearing chiral and achiral ester motives derived from easily accessible starting materials is presented. The oxidation is carried out using dimethyldioxirane as an oxidant providing the desired compounds in moderate to high yields. A crystal structure analysis for one iodine(V) derivative is investigated. The λ5-iodanes are applied as stoichiometric reagents in the oxidation of thioanisole to phenylmethyl sulfoxide, benzyl alcohol to benzaldehyde, and meso-hydrobenzoine to benzaldehyde, benzyl, and benzoin.
