DIMERIC COPPER(II) COMPLEXES WITH BRIDGING UNSATURATED CARBOXYLIC LIGANDS. CORRELATION OF pKa VALUES AND MAGNETIC EXCHANGE PARAMETERS
暂无分享,去创建一个
[1] M. Melnik,et al. Study of some copper(II) carboxylates with triphenyl-phosphine oxide , 1982 .
[2] G. Micera,et al. Magnetic investigations on some copper(II) N-acetyl- and N-benzoyl-alaninates , 1982 .
[3] K. Hyde,et al. Copper(II) complexes of p-nitrophenaceturic acid: Magnetic and thermal behavior of copper(II) p-nitrophenaceturate dihydrate, anhydrous copper(II) p-nitrophenaceturate and the corresponding methanol adduct , 1981 .
[4] M. Melnik,et al. Magnetic and spectroscopic characterisation of copper(II) 2-halogenobenzoates with some heterocyclic N-oxides , 1981 .
[5] B. J. Tabner,et al. Magnetic susceptibility and electron spin resonance of some copper(II) unsaturated carboxylates , 1980 .
[6] J. Mroziňski,et al. The structure and magnetism of the (4,4'-bipy h2)cu2cl6 complex with infinite linear chains of dimeric units , 1980 .
[7] H. Jannek,et al. Proton Relaxation in Various Copper (II) Complexes and Determination of the Singlet-Triplet Separation , 1980 .
[8] B. J. Tabner,et al. An electron spin resonance study of some copper(II) complexes of unsaturated carboxylic acids , 1980 .
[9] H. Manohar,et al. Synthesis and crystal structure of methanol and acetic acid adducts of copper acetate. Predominance of σ-interaction between the two copper atoms in the dimer , 1979 .
[10] M. Melnik,et al. Spectral and magnetic characterisation of copper(II) 2-halogenobenzoates with 1-phenyl-2,3-dimethyl-5-pyrazolone and 1,4-dioxane , 1979 .
[11] F. Y. Hansen,et al. Calculation of the geometry of a 4-methyl pyridine molecule, the barrier to internal rotation of the methyl group and other quantities of interest , 1979 .
[12] J. Harding,et al. Superexchange in copper acetates , 1978, Proceedings of the Royal Society of London. A. Mathematical and Physical Sciences.
[13] R. Doedens,et al. Structure and magnetism of bis(2-chloropyridine)tetrakis(.mu.-trichloroacetato(O,O')-dicopper(II). Influence of the bridging ligand on magnetic properties of dimeric copper(II) carboxylate adducts , 1978 .
[14] K. Nakamoto. Infrared and Raman Spectra of Inorganic and Coordination Compounds , 1978 .
[15] M. Melnik,et al. Spectral and magnetic characterization of copper(II) o-halogenobenzoates with dimethylformamide , 1976 .
[16] K. S. Patel,et al. Physicochemical studies of metal haloacetates—V Magnetic and spectral studies of copper(II) fluoroacetates , 1976 .
[17] A. Earnshaw,et al. Magnetic and IR studies of copper(II) chloroacetates , 1976 .
[18] Y. Yablokov,et al. Exciton Phenomena in Cu(II) Complexes , 1974, March 1.
[19] R. Doedens,et al. Structure and magnetism of bis(propionato)-p-toluidinecopper(II), a cupric carboxylate adduct with a one-dimensional polymeric structure , 1973 .
[20] H. Rade. Temperature dependence of the magnetic susceptibility of mercury tetrathiocyanatocobalt , 1973 .
[21] S. Kettle,et al. Antiferromagnetism in transition-metal complexes. Part IV. Lowlying excited states of binuclear copper(II) carboxylate complexes , 1972 .
[22] A. Heyns. The low-temperature infrared spectra of the copper(II)acetates , 1972 .
[23] Y. Yablokov,et al. Intermolecular Exchange Interaction in Copper (II) Carboxilates , 1971 .
[24] R. Martin,et al. The magnetic anisotropy and electronic structure of binuclear copper (II) acetate monohydrate , 1971, Proceedings of the Royal Society of London. A. Mathematical and Physical Sciences.
[25] N. Hill,et al. The insignificance of metal–metal bonding in the antiferromagnetism of copper(II) carboxylate dimers , 1969 .
[26] W. D. Perry,et al. Hydrated and anhydrous nickel(II) complexes with amino-acids: bidentate and terdentate ligands , 1969 .
[27] Stuart A. Rice,et al. Inorganic Electronic Spectroscopy , 1968 .
[28] J. S. Cook,et al. Progress in organic chemistry , 1968 .
[29] A. Earnshaw. Introduction to Magnetochemistry , 1968 .
[30] R. Martin,et al. The π System of Binuclear Copper(II) and Chromium(II) Acetates , 1966 .
[31] K. Hellwege,et al. Magnetic Properties of Coordination and Organometallic Transition Metal Compounds , 1966 .
[32] A. Lever,et al. Copper(II) Complexes of Unsaturated Acids , 1965 .
[33] R. Martin,et al. Magnetic Studies with Copper(II) Salts. VI. Variable Singlet-Triplet Energies in Amine-Substituted Copper(II) Alkanoates , 1964 .
[34] F. Hanic,et al. The crystal structure of monopyridinecopper(II) acetate , 1964 .
[35] H. B. Jonassen,et al. Copper(II) Complexes with Subnormal Magnetic Moments , 1964 .
[36] M. Inoue,et al. Low Magnetic Moments and the Structure of Urea Complexes of Copper(II) n-Alkanoates , 1964 .
[37] R. Nyholm,et al. 1006. Metal complexes of picolinic acid N-oxide , 1962 .
[38] C. Kennard,et al. 1037. The crystal structure of monopyridinecopper(II) acetate , 1961 .
[39] G. Kortüm,et al. Disssociation constants of organic acids in aqueous solution , 1960 .
[40] H. Nakamura,et al. Spectrochemical Study of Microscopic Crystals. XVII. The Structure of Cupric Salts with Monocarboxylic Fatty Acids , 1958 .
[41] R. Martin,et al. 279. Magnetic studies with copper(II) salts. Part III. The constitution of copper(II)n-alkanoates in solution , 1958 .
[42] R. Martin,et al. 495. Magnetic studies with copper(II) salts. Part II. Anomalous paramagnetism and δ-bonding in anhydrous and hydrated copper(II)n-alkanoates , 1956 .
[43] K. Bowers,et al. Anomalous paramagnetism of copper acetate , 1952, Proceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences.