Condensed thymine films at the mercury/water interface
暂无分享,去创建一个
[1] R. D. Levie,et al. Condensed thymine films at the mercury/water interface: Part III. Thermodynamic analysis , 1987 .
[2] R. D. Levie,et al. Condensed thymine films at the mercury/water interface: Part IV. Stochastic measurements , 1987 .
[3] R. D. Levie,et al. Direct evidence for interfacial condensation in the adsorption of tetrabutylammonium ions , 1986 .
[4] R. D. Levie,et al. Condensed thymine films at the mercury/water interface: Part I. General features , 1986 .
[5] R. D. Levie,et al. When, why, and how to use weighted least squares , 1986 .
[6] R. D. Levie,et al. Simple charging current correction in dc polarography , 1985 .
[7] R. D. Levie,et al. Adsorption of tetraphenylphosphonium chloride at the mercury-water interface , 1985 .
[8] G. Quarin. Adsorption de l'adenosine a l'electrode de mercure-I. Etude cinetique du processus de condensation observe aux faibles densites de charge , 1984 .
[9] H. Emons,et al. Determination of the lipid phase transition temperature from electrochemical double-layer capacity measurements at the mercury/solution interface , 1984 .
[10] R. D. Levie,et al. On the analysis of transients of the form , 1984 .
[11] R. D. Levie,et al. On the statistics of electrochemical nucleation application of the non-homogeneous poisson distribution , 1984 .
[12] A. Lipkowski. On non-quasi-coherent bundles of modules , 1984 .
[13] Y. Temerk,et al. Adsorption stages and association of 1-methylguanosine and 7-methylguanosine in solutions of varying pH at charged interfaces , 1984 .
[14] L. Pospíšil,et al. Stochastic phenomena during phase transition of lecithine films at the mercury solution interface , 1984 .
[15] U. Retter. On the temperature dependence of the two-dimensional condensation of 5-iodocytosine at the mercury/electrolyte interface , 1984 .
[16] V. Vetterl,et al. Effect of Cl−, Br− and I− ions on the adsorption and association of cytosine at a mercury electrode , 1984 .
[17] C. Buess-Herman,et al. Potential step chronocoulometry of dioxygen in aqueous alkaline solutions saturated with isoquinoline , 1984 .
[18] M. J. Weaver,et al. Observation of surface‐enhanced Raman scattering for transition‐metal hexaammine cations at the outer Helmholtz plane: Implications for enhancement mechanisms at electrochemical interfaces , 1984 .
[19] S. Rangarajan,et al. On one-dimensional nucleation and growth of "living" polymers I. Homogeneous nucleation. , 1983, Journal of theoretical biology.
[20] F. Thomas,et al. On the electrochemical behaviour of quinine at the mercury electrode in aqueous solutions , 1983 .
[21] C. Buess-Herman,et al. On the behaviour of molecules of the quinoline group at the water-mercury interface: Part IV B. The kinetics of two-dimensional phase transitions displayed by 3-methyl-isoquinoline , 1983 .
[22] J. Lipkowski,et al. On the behaviour of molecules of the quinoline group at the water-mercury interface. Part IV A. electrocapillary study of 3-methyl-isoquinoline , 1983 .
[23] R. D. Levie,et al. Stochastic effects in the formation of condensed thymine films at the water-mercury interface , 1982 .
[24] R. Guidelli,et al. Inhibitory effect of n-aliphatic alcohols upon the Cd2+/Cd(Hg), Pb(OH)3−/Pb(Hg), BiIII/Bi(Hg) and SbIII/Sb(Hg) systems at high surface coverages ag , 1982 .
[25] Fernando Silva,et al. Phase transformations in adsorbed layers of thiourea and halide ions on mercury , 1982 .
[26] R. D. Levie,et al. On virtual interactions of adsorbed molecules and ions: Sucrose and chloride in the ternary system water + sucrose + NaCl at the mercury-solution interface , 1982 .
[27] Y. Temerk,et al. Electrochemical behaviour of mono- and oligonucleotides: Part IX. Voltammetric studies on the adsorption and association of the oligonucleotide cytidylyl-(3 → 5)-cytidine at the mercury—solution interface , 1982 .
[28] B. Scharifker,et al. Induction times for the formation of single mercury nuclei on a platinum microelectrode , 1981 .
[29] C. Franck,et al. On a direct assessment of the avrami equation, based on a comparative study of pure mononucleation and of polynucleation in the field of adsorption kinetics , 1981 .
[30] J. Lipkowski,et al. On the mechanism of ion transfer across the monolayers of organic surfactants. The mechanism of Cu(II) deposition at Hg electrodes covered by monolayers of aliphatic alcohols , 1981 .
[31] C. Buess-Herman,et al. On the behaviour of molecules of the quinoline group at the water-mercury interface: Part III. The kinetics of the isoquinoline transition in the presence of an inert electrolyte , 1981 .
[32] C. Buess-Herman,et al. On the behaviour of molecules of the quinoline group at the water-mercury interface , 1981 .
[33] H. Nürnberg,et al. Electrochemical behaviour of mono- and oligonucleotides: Part VII. Comparative studies on the adsorption of cytidine at the mercury-aqueous solution interface by pulse polarography and ac polarography , 1980 .
[34] U. Retter. On the two-dimensional nucleation in the adsorption of cytosine at the mercury/electrolyte interface , 1980 .
[35] L. Pospíšil,et al. The interfacial properties of lecithin homologues at the mercury/solution interface and the effect of thermally induced chain “melting” phase transition , 1980 .
[36] V. Brabec,et al. Interfacial behavior of adenine and its nucleosides and nucleotides , 1979 .
[37] H. Nürnberg,et al. Electrochemical behaviour of mono-and oligonucleotides and the corresponding nucleosides , 1979 .
[38] Y. Temerk. Studies on the adsorption and the association of cytidine sulphate at the dropping mercury electrode with phase-sensitive ac-polarography , 1979 .
[39] J. Lipkowski,et al. On the mechanism of electrode reactions occurring in the presence of foreign neutral adsorbable organic compounds , 1979 .
[40] J. Lipkowski,et al. Manifestation of steric factors in electrode kinetics , 1979 .
[41] H. Nürnberg,et al. Electrochemical behaviour of mono- and oligonucleotides: Part III. Adsorption parameters of the dilute and compact adsorption layer of adenosine and adenine mononucleotides , 1978 .
[42] Y. Temerk,et al. Electrochemical behaviour of mono- and oligonucleotides: Part V. Voltammetric studies on the adsorption stages and interfacial orientations of cytidine at charged interfaces⋆ , 1978 .
[43] M. J. Weaver,et al. Elucidation of the reaction sites for the electroreduction of some cobalt(III) ammine complexes at the mercury-aqueous interface. The effect of anion specific adsorption from mixed alkali fluoride electrolytes , 1978 .
[44] U. Retter. On the time dependence of the formation of a condensed film in the adsorption of adenosine at the interface mercury/electrolyte , 1978 .
[45] V. Brabec,et al. 231 - Adsorption of Mixtures of Complementary and Non-Complementary Nucleic Acid Bases at the Mercury-Solution Interface , 1978 .
[46] V. Brabec,et al. Potential and structure controlled interfacial behavior of uracil derivatives. , 1978, Biophysical chemistry.
[47] S. D. Christian,et al. Interfacial behavior of thymine, thymidine and thymidine mononucleotides at the mercury-solution interface , 1977 .
[48] M. Goodgame,et al. Metal complexes of uracil and thymine , 1977 .
[49] V. Brabec,et al. Interfacial behavior of uracil at the mercury-solution interface , 1977 .
[50] S. D. Christian,et al. Adsorption of adenine, deoxyadenosine and deoxyadenosine mononucleotides at the mercury-solution interface , 1977 .
[51] P. Valenta,et al. Electrochemical behaviour of mono- and oligonucleotides: IV. The adsorption of adenine oligonucleotides at the mercury-solution interface , 1977 .
[52] L. Pospíšil,et al. Adsorption and inhibition effects of tribenzylamine in ethanol+water mixtures on a mercury electrode , 1977 .
[53] R. Žaludová,et al. Adsorption of xanthosine, inosine and 6-azauridine on the dropping mercury electrode☆ , 1977 .
[54] S. Sathyanarayana,et al. Novel aspects of adsorption of d-camphor 10-sulphonate ion at a mercury/solution interface , 1976 .
[55] H. Hurwitz,et al. A study of relaxation phenomena in adsorbed organic films on mercury electrode: Behavior of β-quinoline , 1976 .
[56] F. Scheller,et al. Untersuchung des adsorptionsverhaltens herzwirksamer steroide an der quecksilbertropfelektrode , 1976 .
[57] V. Vetterl. Electric field effect in the adsorption of adenosine and cytosine , 1976 .
[58] P. Valenta,et al. Electrochemical Behaviour of Mono- and Oligonucleotides. II. Adsorption stages and Interfacial orientations of adenine mononucleotides at the mercury-solution interface , 1976 .
[59] H. Nürnberg,et al. Electrochemical behaviour of mono- and oligonucleotides I. Effects of charge and configuration of adenine mononucleotides on their adsorption at the mercury—solution interface , 1975 .
[60] J. Lipkowski,et al. On the present understanding of the nature of inhibition of electrode reactions by adsorbed neutral organic molecules , 1975 .
[61] J. Lipkowski,et al. On the mechanism of electrode reactions in presence of foreign, neutral adsorbable organic compounds , 1975 .
[62] U. Retter,et al. Potentialabhängige Umorientierung und Inhibitionswirkung bei der Adsorption von Adenosin an der Grenzfläche Quecksilber/elektrolyt , 1974 .
[63] P. Elving,et al. Di- and oligonucleoside phosphates of adenine and cytosine. Electrochemical study of reduction, adsorption, and association. , 1973, Journal of the American Chemical Society.
[64] E. E. Criddle,et al. Ultrapurification of water for electrochemical and surface chemical work by catalytic pyrodistillation , 1973 .
[65] F. Rouelle,et al. Electrogeneration and some properties of the superoxide ion in aqueous solutions , 1972 .
[66] N. Hackerman,et al. Adsorption of Thiourea and Derivatives at the In‐Hg Electrolyte Interface , 1971 .
[67] L. Gierst,et al. The influence of the adsorption of thiourea on electrode processes at the mercury electrode , 1971 .
[68] S. Sathyanarayana,et al. Kinetics of adsorption of camphor, camphene, pinene and nonylic acid at the mercury-solution interface , 1970 .
[69] S. Sathyanarayana,et al. Adsorption of camphor, camphene, pinene, naphthalene and nonylic acid at the mercury-solution interface , 1970 .
[70] S. Sathyanarayana,et al. Interpretation of differential capacitance curves obtained during a two-dimensional association of organic molecules , 1969 .
[71] R. Parsons. The effect of specific adsorption on the rate of an electrode process , 1969 .
[72] R. D. Levie,et al. Instrument for the automatic measurement of the electrode admittance , 1969 .
[73] V. Vetterl. Alternating current polarography of nucleosides , 1968 .
[74] V. Vetterl. Adsorption of nucleosides on mercury surface , 1968, Biophysik.
[75] M. Blank,et al. Transport of ions across lipid monolayers. II. Reduction of polarographic currents of Cu(II) by decylammonium monolayers. , 1968, Journal of colloid and interface science.
[76] E. Budewski,et al. Keimbildungserscheinungen an versetzungsfreien (100)-flächen von silbereinkristallen☆ , 1966 .
[77] D. Robinson,et al. The effects of aqueous salt solutions on the activity coefficients of purine and pyrimidine bases and their relation to the denaturation of deoxyribonucleic acid by salts. , 1966, The Journal of biological chemistry.
[78] V. Vetterl. Differentielle kapazität der elektrolytischen doppelschicht in anwesenheit einiger purin- und pyrimidinderivate , 1966 .
[79] S. Sathynarayana. Polarographic maxima at the desorption potentials of organic molecules , 1965 .
[80] H. Gerischer,et al. Zur Elektrolyse bei konstantem Elektrodenpotential. , 1955 .
[81] U. R. Evans. The laws of expanding circles and spheres in relation to the lateral growth of surface films and the grain-size of metals , 1945 .
[82] M. Avrami. Kinetics of Phase Change. II Transformation‐Time Relations for Random Distribution of Nuclei , 1940 .