Cyclohexanone—continued reduction

Dicyclohexylarnine may be selectively generated by reductive alkylation of cyclohexylamine by cyclohexanone (15). Stated batch reaction conditions are specifically 0.05—2.0% Pd or Pt catalyst, which is reusable, pressures of 400—700 kPa (55—100 psi), and temperatures of 75—100°C to give complete reduction in 4 h. Continuous vapor-phase amination selective to dicyclohexylarnine is claimed for cyclohexanone (16) or mixed cyclohexanone plus cyclohexanol (17) feeds. Conditions are 5—15 s contact time of <1 1 ammonia ketone, - 3 1 hydrogen ketone at 260°C over nickel on kieselguhr. With mixed feed the preferred conditions over a mixed copper chromite plus nickel catalyst are 18-s contact time at 250 °C with ammonia alkyl = 0.6 1 and hydrogen alkyl = 1 1. 

Stereoselective biotransformation with growing cells, resting free or immobilized cells, or isolated enzymes has been demonstrated to be a useful preparative method for the synthesis of centrochiral optically active organosilicon compounds [1-3]. In continuation of our own studies in this field, we have investigated stereoselective microbial transformations of rac-1-(4-fluorophenyl)-l-methyl-l-sila-2-cyclohexanone (rac-1) and rac-(Si5,CR/SiR,C5)-2-acetoxy-l-(4-fluorophenyl)-l-methyl-1-silacyclohexane [rac-(Si5,C/ /Si/f,C5)-3a]. We report here on (i) the synthesis of rac-1 and rac- SiS,CR/SiR,CS)-3a, (ii) the diastereoselective microbial reduction of rac-1 [— (Si5,C/ )-2a, (SiR,C5)-2a], and (iii) the enantioselective microbial hydrolysis of rac-(SiS,CR/SiR,CS)-3a [- (SiR,C5)-2a],... 

The use of the cobalt triad carbonyls as catalysts continues to provide many papers for this report. Publications cover the silylformylation of 1-Hexyne catalyzed by diodium-cobalt carbonyl clusters the formation of hydroxycarbene cobalt carbonyl derivatives, the use of rhodium cluster carbonyls in the water-gas shift reaction Rh4(CO) 2> and Co3Rh(CO)] 2 catalysts for the hydrosilation of isoprene, cyclohexanone and cyclohexenone catalytic reduction of NO by CO and the carbonylation of unsaturated compounds The chemistry of iridium carbonyl cluster complexes has been extended by making use of capping reactions with HgCl2and Au(PPh3)Q... 

The synthesis continued with reduction of the cyclohexanone to the alcohol oxidation state, taking it out of play for a series of reactions that constructed the sidechain (49 54). The sidechain ketone was then protected as an acetal, and the cyclohexanone was reinstalled by deprotection and oxidation of the cyclohexanol. Regioselective acylation of 55 under conditions of thermodynamic control, followed by reduction of the intermediate /3-ketoester, gave 56 (for comparison see 3 —> 14 on Steroids-3). Formation of the tosylate, a /3-elimination, and ketal hydrolysis completed the synthesis of 14. 

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