| Abstract |
Template combination of copper acetate (Cu(AcO)(2)center dot H2O) with sodium dicyanamide (NaN(C N)(2), 2 equiv) or cyanoguanidine (N CNHC(=NH)NH2, 2 equiv) and an alcohol ROH (used also as solvent) leads to the neutral copper(II)(2,4-alkoxy-1,3,5-triazapentadienato) complexes [Cu\NH=C(OR)NC(OR)=NH\(2)] (R=Me (1), Et (2), nPr (3), iPr (4), CH2CH2OCH3 (5)) or cationic copper(II)(2-alkoxy-4-amino-1,3,5-triazapentadiene) complexes [Cu\NH=C(OR)NHC(NH2)=NH\(2)]-(AcO)(2) (R=Me (6), Et (7), nPr (8), nBu (9), CH2CH2OCH3 (10)), respectively. Several intermediates of this reaction were isolated and a pathway was proposed. The deprotonation of 6-10 with NaOH allows their transformation to the corresponding neutral triazapentadienates [Cu\NH=C(OR)NC(NH2)=NH\(2)] 11-15. Reaction of 11, 12 or 15 with acetyl acetone (MeC(=O)CH2C(=O)Me) leads to liberation of the corresponding pyrimidines NC(Me)CHC(Me)NCNHC(=NH)OR, whereas the same treatment of the cationic complexes 6, 7 or 10 allows the corresponding metal-free triazapentadiene salts \NH2C(OR)=NC(NH2)=NH2\(OAc) to be isolated. The alkoxy-1,3,5-triazapentadiene/ato copper(II) complexes have been applied as efficient catalysts for the TEMPO radical-mediated mild aerobic oxidation of alcohols to the corresponding aldehydes (molar yields of aldehydes of up to 100\% with >99\% selectivity) and for the solvent-free microwave-assisted synthesis of ketones from secondary alcohols with tert-butylhydroperoxide as oxidant (yields of up to 97\%, turnover numbers of up to 485 and turnover frequencies of up to 1170 h(-1)). |
