85268-97-9Relevant academic research and scientific papers
Controllable Intramolecular Unactivated C(sp3)-H Amination and Oxygenation of Carbamates
Guo, Qihang,Ren, Xiang,Lu, Zhan
supporting information, p. 880 - 884 (2019/05/16)
Dual catalyst-controlled intramolecular unactivated C(sp3)-H amination and oxygenation of carbamates merging visible-light photocatalysis and earth-abundant transition metal catalysis have been reported. Useful amino alcohol and diol derivatives could be selectively obtained from readily available tertiary alcohol derivatives. The possible mechanisms have been proposed via a 1,5-HAT process followed by Lewis acid-controlled cyclization. The nickel and zinc catalysts inhibit the formation of oxygenation and amination products, respectively. An interesting phenomenon of chirality transfer is also observed.
THE STEREOCHEMISTRY OF THE INTRAMOLECULAR ELECTROPHILIC ATTACK OF AN ALDEHYDE ON A CARBON-TIN BOND
Fleming, Ian,Rowley, Michael
, p. 3181 - 3198 (2007/10/02)
The cyclopentane-forming reaction (20-43) of (4RS,5SR)-2,2,4-trimethyl-5-trimetstannylhexanal takes place with retention of configuration at the carbon atom undergoing electrophilic substitution, in contrast to similar cyclopropane-forming reactions (e.g. 47-48), which take place with inversion of configuration.The hydride transfer (24-45) of the 4RS,5RS diastereoisomeric hexanal takes place from a conformation with hydride anti to the stannyl group.In the case of reacions which might have formed four-membered rings, fragmentation takes place (16-28 and 17-30).The presence of a phenyl ring on the carbon carrying the stannyl group interferes with the reactions designed to test the stereochemistry of the SE2 reaction, diverting the reaction to the formation of tetralins (10-26 and 34-38) or benzcycloheptenes (34-37).
