Oxidation of benzoin to benzil and of p-substituted benzyl alcohol to the corresponding benzaldehyde catalyzed by iron(II) thiolate complexes. A proposed reaction mechanism
暂无分享,去创建一个
[1] Wei‐Yin Sun,et al. Evidence for intramolecular NH---S hydrogen bonds from deuterium-NMR spectroscopy of reduced-rubredoxin model iron(II) complexes with bidentate peptide ligands , 1992 .
[2] Wei‐Yin Sun,et al. Air oxidation of p-substituted benzoin to the corresponding benzil catalyzed by Fe(II)-cysteine peptide complexes , 1992 .
[3] Wei‐Yin Sun,et al. Catalytic oxidation of benzoin and p-substituted benzhydrol by p-benzoquinone or air in the presence of [FeII(SPh)4]2− and [FeII(SePh)4]2− , 1992 .
[4] D. T. Sawyer,et al. Cobalt(II)-induced activation of dioxygen for the dehydrogenation of N-methylanilines and benzyl alcohol , 1991 .
[5] Wei‐Yin Sun,et al. Reduced rubredoxin models containing Z-Cys-Pro-Leu-Cys-Gly-NH-C6H4-p-X (X = MeO, H, F, CN) : electronic influence by a distant para substituent through NH---S hydrogen bonds , 1991 .
[6] T. Okamura,et al. Oxidative reactivity of (NEt4) [Mov(SR)4] complexes: catalytic oxidation of benzoin by proton and electron transfer , 1989 .
[7] N. Ueyama,et al. Mn11-thiophenolate and -selenophenolate complexes as catalyst in air oxidation of benzoin, benzaldehyde and hydrazobenzene , 1989 .
[8] T. Nagano,et al. Reactivity of [Fe(SAr) 4 ] n- (n=1 or 2) : Synthetic Model Complexes for Iron-Sulfur Protein, Rubredoxin , 1988 .
[9] I. Moura,et al. 1H NMR spectra of rubredoxins: new resonances assignable to α-CH and β-CH2 hydrogens of cysteinate ligands to iron(II) , 1987 .
[10] T. Nagano,et al. Rubredoxin model complex (Et4N)[Fe(S2-o-xyl)2] as a catalyst in the reduction of aromatic nitro compounds to hydroxylamines , 1986 .
[11] K. Hagen,et al. Synthesis and stereochemistry of metal(II) thiolates of the types [M(SR)4]2-, [M2(SR)6]2-, and [M4(SR)10]2- (M = Fe(II), Co(II)) , 1984 .
[12] N. Ueyama,et al. Oxidized rubredoxin models. II. Iron(III) complexes of Z-Cys-Pro-Leu-Cys-OMe and Z-Cys-Thr-Val-Cys-OMe. , 1983 .
[13] K. Hagen,et al. Synthetic routes to iron sulfide (Fe2S2, Fe3S4, Fe4S4, and Fe6S9), clusters from the common precursor tetrakis(ethanethiolate)ferrate(2-) ion ([Fe(SC2H5)4]2-): structures and properties of [Fe3S4(SR)4]3- and bis(ethanethiolate)nonathioxohexaferrate(4-) ion ([Fe6S9(SC2H5)2]4-), examples of the newest , 1983 .
[14] J. Reynolds,et al. Definition of reaction sequences resulting in self-assembly of [Fe4S4(SR)4]2- clusters from simple reactants , 1981 .
[15] N. Ueyama,et al. Oxidized Rubredoxin Models. Iron(III) Complexes of Z–Cys–Ala–Ala–Cys–OMe and Z–Ala–Cys–OMe , 1981 .
[16] M. Kaneko,et al. Catalytic activity of polynuclear manganese-thiolato complexes for oxidative polymerization of 2,6-dimethylphenol , 1981 .
[17] A. G. Harrison,et al. Stereochemical applications of mass spectrometry: 1—The utility of electron impact and chemical ionization mass spectrometry in the differentiation of stereoisomeric benzoin oximes and phenylhydrazones , 1980 .
[18] R. Frankel,et al. Synthetic analogues of the active sites of iron-sulfur proteins. 14. Synthesis, properties, and structures of bis(o-xylyl-alpha,alpha'-dithiolato)ferrate(II, III) anions, analogues of oxidized and reduced rubredoxin sites. , 1977, Journal of the American Chemical Society.
[19] D. Coucouvanis,et al. Synthesis and characterization of a new series of first row element tetrahedral mercaptide complexes , 1975 .
[20] Chin-Hua S. Wu,et al. Nickel acetate catalyzed autoxidation of benzoin , 1973 .