An investigation of the dismutation of uranium(V) in sodium bicarbonate-carbonate solutions with cyclic chronopotentiometry*

[1]  F. Jović,et al.  Starting and switching problems and their solution in instruments for fast cyclic chronopotentiometry , 1974 .

[2]  M. Vuković,et al.  An investigation into the reaction mechanism of uranium(VI) reduction in acidic solutions by cyclic chronopotentiometry , 1974 .

[3]  Allen J. Bard,et al.  Electroanalytical Chemistry: A Series of Advances , 1974 .

[4]  E. Yeager,et al.  Regeneration of a substance undergoing an electrode reaction by disproportionation at a rotating electrode , 1973 .

[5]  G. Smiljanić,et al.  An electronic instrument for cyclic chronopotentiometry , 1970 .

[6]  F. S. Nakayama Sodium bicarbonate and carbonate ion pairs and their relation to the estimation of the first and second dissociation constants of carbonic acid , 1970 .

[7]  S. Feldberg Theory of regenerative second-order mechanisms in chronoamperometry. The paradox of disproportionation , 1969 .

[8]  R. Nicholson,et al.  Cyclic voltammetry theory for the disproportionation reaction and spherical diffusion , 1969 .

[9]  Robert G. Hamilton,et al.  Theory of cyclic voltammetry for a dimerization reaction initiated electrochemically , 1969 .

[10]  V. Pravdić,et al.  The electrochemical oxidation of uranium(IV) in sodium bicarbonate solutions , 1968 .

[11]  A. Bard,et al.  Cyclic Chronopotentiometry. Systems Involving Kinetic Complications , 1968 .

[12]  C. Russell,et al.  Interpretation of totally irreversible chronopotentiometric waves , 1963 .

[13]  I. Kolthoff,et al.  The polarography of uranium; polarography in very weakly acid, neutral or basic solution. , 1947, Journal of the American Chemical Society.