Physico-chemical properties of the copper(II)-poly-4-vinylpyridine complexes
暂无分享,去创建一个
[1] V. Kabanov,et al. Solvation effects and reactivity of free pyridine residues in macromolecules of poly-4-vinylpyridine derivatives , 1974 .
[2] G. M. Lukovkin,et al. Physico-chemical study of ionic equilibria for poly-2 and poly-4-vinylpyridines in alcohol-water solutions , 1973 .
[3] W. Goad,et al. Theory of sedimentation of ligand-mediated dimerization. , 1972, Archives of biochemistry and biophysics.
[4] A. Levitzki,et al. The copper-poly-L-histidine complexes. II. Physicochemical properties. , 1972, Journal of the American Chemical Society.
[5] T. Nozawa,et al. The catalytic activity of the poly‐L‐lysine‐copper(II) complex on the oxidation of 3.4‐dihydroxyphenylalanine , 1971 .
[6] T. Nozawa,et al. The mechanism in the asymmetrically selective oxidation of 3.4-dihydroxyphenylalanine catalyzed by the poly-L-lysine-copper(II) complex , 1971 .
[7] T. Nozawa,et al. Formation and properties of poly‐L(DL)‐lysine‐copper(II) complexes , 1971 .
[8] S. Davydova,et al. Macromolecular Complexes as Chemical Reaction Catalysts , 1968 .
[9] T. Nozawa,et al. Catalytic effects of poly(acrylhydroxamic acid)‐copper chelates on decomposition reaction of hydrogen peroxide , 1968 .
[10] T. Nozawa,et al. Formation of poly(acrylhydroxamic acid)-copper chelates , 1968 .
[11] T. Nozawa,et al. Catalytic activity of some chelate polymers derived from cupric ion and polymeric ligands having hydroxamic acid groups , 1968 .
[12] M. Anbar,et al. The copper-poly-L-histidine complex. I. The environmental effect of the polyelectrolyte on the oxidase activity of copper ions. , 1967, Journal of the American Chemical Society.
[13] Y. Moriguchi. The Catalytic Hydrolysis of Oligophosphates by Ethylenediamine-Copper(II) and Poly-L-lysine - Copper(II) Complexes , 1966 .
[14] H. Yamazaki,et al. Nature of Cu(II)‐poly(glutamic acid) complex in aqueous solution , 1966, Biopolymers.
[15] M. Anbar,et al. Oxidase-like Activity of the Copper (II) Poly-L-histidine Complex , 1965, Nature.
[16] V. Thiele,et al. Kupfer‐ und Nickelkomplexe von Polyäthylenimin , 1963 .
[17] H. Gregor,et al. METAL—POLYELECTROLYTE COMPLEXES. VII. THE POLY-N-VINYLIMIDAZOLE SILVER(I) COMPLEX AND THE IMIDAZOLE—SILVER(I) COMPLEX , 1960 .
[18] H. Gregor,et al. Metal-Polyelectrolyte Complexes. VI. Preparation and Properties of a New Polychelate–Polyvinylmethylglyoxime. , 1959 .
[19] Raymond F. Chen,et al. The Association of 4-Methylimidazole with the Ions of Cupric Copper and Zinc; with Some Observations on 2,4-Dimethylimidazole , 1957 .
[20] H. Gregor,et al. Metal-Polyelectrolyte Complexes. IV. Complexes of Polyacrylic Acid with Magnesium, Calcium, Manganese, Cobalt and Zinc , 1955 .
[21] H. Gregor,et al. Metal–Polyelectrolyte Complexes. III. Entropy and Enthalpy of Complexation for Polyacrylic Acid–Copper Systems , 1955 .
[22] H. Gregor,et al. Metal–Polyelectrolyte Complexes. II. Complexes of Copper with Cross-linked Polyacrylic and Polymethacrylic Acids , 1955 .
[23] H. Gregor,et al. Metal–Polyelectrolyte Complexes. I. The Polyacrylic Acid–Copper Complex , 1955 .