3 Combined Application of Radiochemical and Electrochemical Methods for the Investigation of Solid-Liquid Interfaces - 3 Selected Results - 3.2 Accumulation of 110mAg on an Austenitic Stainless Steel (English)
- New search for: Varga, Kálmán
- New search for: Varga, Kálmán
- New search for: Hirschberg, Gábor
- New search for: Baradlai, Pál
- New search for: Nagy, Melinda
In:
Surface and colloid science
;
16
; 381-384
;
2001
-
ISSN:
- Article (Journal) / Print
-
Title:3 Combined Application of Radiochemical and Electrochemical Methods for the Investigation of Solid-Liquid Interfaces - 3 Selected Results - 3.2 Accumulation of 110mAg on an Austenitic Stainless Steel
-
Contributors:
-
Published in:Surface and colloid science ; 16 ; 381-384
-
Publisher:
- New search for: Kluwer Acad./Plenum Publ.
-
Place of publication:New York, NY [u.a.]
-
Publication date:2001
-
ISSN:
-
ZDBID:
-
Type of media:Article (Journal)
-
Type of material:Print
-
Language:English
- New search for: 35.18 / 35.18
- Further information on Basic classification
-
Classification:
-
Source:
Table of contents – Volume 16
The tables of contents are generated automatically and are based on the data records of the individual contributions available in the index of the TIB portal. The display of the Tables of Contents may therefore be incomplete.
- 1
-
1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W Creams - IntroductionFukushima, Shoji et al. | 2001
- 1
-
1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W CreamsFukushima, Shoji et al. | 2001
- 2
-
1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W Creams - 1 Cetyl AlcoholFukushima, Shoji et al. | 2001
- 2
-
1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W Creams - 1 Cetyl Alcohol - 1.2 Short History of Cetyl AlcoholFukushima, Shoji et al. | 2001
- 2
-
1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W Creams - 1 Cetyl Alcohol - 1.1 Description of Cetyl AlcoholFukushima, Shoji et al. | 2001
- 4
-
1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W Creams - 1 Cetyl Alcohol - 1.3 Definitions in Official BooksFukushima, Shoji et al. | 2001
- 7
-
1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W Creams - 2 Physical Properties of Cetyl Alcohols - 2.1 Polymorphism of Higher AlcoholsFukushima, Shoji et al. | 2001
- 7
-
1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W Creams - 2 Physical Properties of Cetyl AlcoholsFukushima, Shoji et al. | 2001
- 12
-
1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W Creams - 2 Physical Properties of Cetyl Alcohols - 2.3 Melting Point and Transition Point of Higher AlcoholsFukushima, Shoji et al. | 2001
- 12
-
1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W Creams - 2 Physical Properties of Cetyl Alcohols - 2.2 Crystal Structure of Higher AlcoholsFukushima, Shoji et al. | 2001
- 14
-
1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W Creams - 2 Physical Properties of Cetyl Alcohols - 2.4 Transition Point and Infrared AbsorptionFukushima, Shoji et al. | 2001
- 20
-
1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W Creams - 3 Specific Interaction between 1-Hexadecanol and 1-OctadecanolFukushima, Shoji et al. | 2001
- 20
-
1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W Creams - 3 Specific Interaction between 1-Hexadecanol and 1-Octadecanol - 3.1 Composition of Commercially Available Cetyl AlcoholFukushima, Shoji et al. | 2001
- 20
-
1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W Creams - 3 Specific Interaction between 1-Hexadecanol and 1-Octadecanol - 3.2 Transition Point of 1-HexadecanolFukushima, Shoji et al. | 2001
- 24
-
1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W Creams - 4 Interaction between Higher Alcohols and Water - 4.1 Experimental FactsFukushima, Shoji et al. | 2001
- 24
-
1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W Creams - 4 Interaction between Higher Alcohols and WaterFukushima, Shoji et al. | 2001
- 28
-
1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W Creams - 4 Interaction between Higher Alcohols and Water - 4.2 Formation of HemihydrateFukushima, Shoji et al. | 2001
- 31
-
1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W Creams - 4 Interaction between Higher Alcohols and Water - 4.3 Structure of Hydrated AlcoholsFukushima, Shoji et al. | 2001
- 33
-
1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W Creams - 4 Interaction between Higher Alcohols and Water - 4.4 Phase Diagram of the 1-Hexadecanol-1-Octadecanol-Water Ternary SystemFukushima, Shoji et al. | 2001
- 35
-
1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W Creams - 5 Studies on Higher Alcohol-Surfactant-Water Systems - 5.1 The 1-Decanol-Sodium Caprylate-Water SystemFukushima, Shoji et al. | 2001
- 35
-
1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W Creams - 5 Studies on Higher Alcohol-Surfactant-Water Systems - 5.2 The 1-Hexadecanol-OTAC-Water SystemFukushima, Shoji et al. | 2001
- 35
-
1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W Creams - 5 Studies on Higher Alcohol-Surfactant-Water Systems - 5.3 Rheology of Ternary Systems Containing 1-Hexadecanol or a Homologous AlcoholFukushima, Shoji et al. | 2001
- 35
-
1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W Creams - 5 Studies on Higher Alcohol-Surfactant-Water SystemsFukushima, Shoji et al. | 2001
- 38
-
1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W Creams - 5 Studies on Higher Alcohol-Surfactant-Water Systems - 5.3 Rheology of Ternary Systems Containing 1-Hexadecanol or a Homologous Alcohol - 5.3.1 Influence of the Amount of 1-HexadecanolFukushima, Shoji et al. | 2001
- 40
-
1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W Creams - 5 Studies on Higher Alcohol-Surfactant-Water Systems - 5.3 Rheology of Ternary Systems Containing 1-Hexadecanol or a Homologous Alcohol - 5.3.2 Influence of the Nature of Surfactant and of Higher AlcoholFukushima, Shoji et al. | 2001
- 41
-
1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W Creams - 5 Studies on Higher Alcohol-Surfactant-Water Systems - 5.3 Rheology of Ternary Systems Containing 1-Hexadecanol or a Homologous Alcohol - 5.3.3 Influence of Alkyl Chain Length of SurfactantFukushima, Shoji et al. | 2001
- 43
-
1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W Creams - 5 Studies on Higher Alcohol-Surfactant-Water Systems - 5.3 Rheology of Ternary Systems Containing 1-Hexadecanol or a Homologous Alcohol - 5.3.4 ConclusionFukushima, Shoji et al. | 2001
- 43
-
1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W Creams - 6 Nature of Ternary Systems Prepared with HexaoctadecanolsFukushima, Shoji et al. | 2001
- 44
-
1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W Creams - 6 Nature of Ternary Systems Prepared with Hexaoctadecanols - 6.1 Stability and Rheological Properties of Ternary Systems as a Function of TemperatureFukushima, Shoji et al. | 2001
- 44
-
1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W Creams - 6 Nature of Ternary Systems Prepared with Hexaoctadecanols - 6.1 Stability and Rheological Properties of Ternary Systems as a Function of Temperature - 6.1.1 Variations in External AppearanceFukushima, Shoji et al. | 2001
- 45
-
1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W Creams - 6 Nature of Ternary Systems Prepared with Hexaoctadecanols - 6.1 Stability and Rheological Properties of Ternary Systems as a Function of Temperature - 6.1.2 Variations in ViscosityFukushima, Shoji et al. | 2001
- 45
-
1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W Creams - 6 Nature of Ternary Systems Prepared with Hexaoctadecanols - 6.1 Stability and Rheological Properties of Ternary Systems as a Function of Temperature - 6.1.3 Microscopic ObservationFukushima, Shoji et al. | 2001
- 46
-
1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W Creams - 6 Nature of Ternary Systems Prepared with Hexaoctadecanols - 6.1 Stability and Rheological Properties of Ternary Systems as a Function of Temperature - 6.1.4 X-Ray Diffraction AnalysisFukushima, Shoji et al. | 2001
- 50
-
1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W Creams - 6 Nature of Ternary Systems Prepared with Hexaoctadecanols - 6.1 Stability and Rheological Properties of Ternary Systems as a Function of Temperature - 6.1.5 Low-Angle X-Ray Diffraction AnalysisFukushima, Shoji et al. | 2001
- 51
-
1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W Creams - 6 Nature of Ternary Systems Prepared with Hexaoctadecanols - 6.1 Stability and Rheological Properties of Ternary Systems as a Function of Temperature - 6.1.6 Thermal PropertyFukushima, Shoji et al. | 2001
- 52
-
1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W Creams - 6 Nature of Ternary Systems Prepared with Hexaoctadecanols - 6.2 Polymorphism of Hexaoctadecanol (3:2) and Stability of a Ternary CreamFukushima, Shoji et al. | 2001
- 54
-
1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W Creams - 7 Liquid Crystalline Phases in Hexaoctadecanol (3:2)-Surfactant-Water Ternary Systems - 7.1 Phase DiagramFukushima, Shoji et al. | 2001
- 54
-
1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W Creams - 7 Liquid Crystalline Phases in Hexaoctadecanol (3:2)-Surfactant-Water Ternary SystemsFukushima, Shoji et al. | 2001
- 56
-
1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W Creams - 7 Liquid Crystalline Phases in Hexaoctadecanol (3:2)-Surfactant-Water Ternary Systems - 7.2 D2 RegionFukushima, Shoji et al. | 2001
- 60
-
1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W Creams - 7 Liquid Crystalline Phases in Hexaoctadecanol (3:2)-Surfactant-Water Ternary Systems - 7.3 M RegionFukushima, Shoji et al. | 2001
- 62
-
1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W Creams - 7 Liquid Crystalline Phases in Hexaoctadecanol (3:2)-Surfactant-Water Ternary Systems - 7.4 The Location and State of the D2 Phase and M Particles in a Ternary CreamFukushima, Shoji et al. | 2001
- 65
-
1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W Creams - 8 Temperature and the Process Yielding the Liquid Crystalline Phase - 8.1 Temperature of the Formation of the Liquid Crystalline Phase - 8.1.1 Method of Phase Separation ExperimentsFukushima, Shoji et al. | 2001
- 65
-
1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W Creams - 8 Temperature and the Process Yielding the Liquid Crystalline PhaseFukushima, Shoji et al. | 2001
- 65
-
1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W Creams - 8 Temperature and the Process Yielding the Liquid Crystalline Phase - 8.1 Temperature of the Formation of the Liquid Crystalline PhaseFukushima, Shoji et al. | 2001
- 66
-
1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W Creams - 8 Temperature and the Process Yielding the Liquid Crystalline Phase - 8.1 Temperature of the Formation of the Liquid Crystalline Phase - 8.1.2 Results of the Phase Separation ExperimentFukushima, Shoji et al. | 2001
- 67
-
1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W Creams - 8 Temperature and the Process Yielding the Liquid Crystalline Phase - 8.2 G Phase and S PhaseFukushima, Shoji et al. | 2001
- 67
-
1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W Creams - 8 Temperature and the Process Yielding the Liquid Crystalline Phase - 8.2 G Phase and S Phase - 8.2.1 Microscopic ObservationFukushima, Shoji et al. | 2001
- 69
-
1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W Creams - 8 Temperature and the Process Yielding the Liquid Crystalline Phase - 8.2 G Phase and S Phase - 8.2.4 Temperature at which the LC Phase is FormedFukushima, Shoji et al. | 2001
- 69
-
1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W Creams - 8 Temperature and the Process Yielding the Liquid Crystalline Phase - 8.2 G Phase and S Phase - 8.2.2 X-Ray DiffractionFukushima, Shoji et al. | 2001
- 69
-
1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W Creams - 8 Temperature and the Process Yielding the Liquid Crystalline Phase - 8.2 G Phase and S Phase - 8.2.3 Differential Scanning CalorimetryFukushima, Shoji et al. | 2001
- 71
-
1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W Creams - 8 Temperature and the Process Yielding the Liquid Crystalline Phase - 8.3 In situ Formation of G and M PhasesFukushima, Shoji et al. | 2001
- 74
-
1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W Creams - 9 The Function of Liquid Crystalline Phases in O-W Creams - 9.1 Studies on O-W CreamsFukushima, Shoji et al. | 2001
- 74
-
1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W Creams - 9 The Function of Liquid Crystalline Phases in O-W CreamsFukushima, Shoji et al. | 2001
- 77
-
1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W Creams - 9 The Function of Liquid Crystalline Phases in O-W Creams - 9.2 The Difference in the Viscosity-Increasing Effects due to the Nature of Higher AlcoholsFukushima, Shoji et al. | 2001
- 78
-
1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W Creams - 9 The Function of Liquid Crystalline Phases in O-W Creams - 9.3 The Difference in the Viscosity-Increasing Effect due to the Nature of SurfactantsFukushima, Shoji et al. | 2001
- 78
-
1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W Creams - 9 The Function of Liquid Crystalline Phases in O-W Creams - 9.4 The Viscosity Change due to the Ratio of Cetostearyl Alcohol to SurfactantFukushima, Shoji et al. | 2001
- 81
-
1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W Creams - 9 The Function of Liquid Crystalline Phases in O-W Creams - 9.5. The Effect of Mixing 1-Hexadecanol with 1-OctadecanolFukushima, Shoji et al. | 2001
- 83
-
1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W Creams - 9 The Function of Liquid Crystalline Phases in O-W Creams - 9.6. Crystallization of Cetyl Alcohol in Cosmetic CreamsFukushima, Shoji et al. | 2001
- 84
-
1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W Creams - 10 Internal Structure and Stability of O-W C CreamsFukushima, Shoji et al. | 2001
- 84
-
1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W Creams - 10 Internal Structure and Stability of O-W C Creams - 10.1 Internal Structure of O-W CreamsFukushima, Shoji et al. | 2001
- 86
-
1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W Creams - 10 Internal Structure and Stability of O-W C Creams - 10.2 A Novel Theory for the Stabilization of O-W CreamsFukushima, Shoji et al. | 2001
- 88
-
1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W Creams - Appendix 1: Additional References on Cetyl and Homologous AlcoholsFukushima, Shoji et al. | 2001
- 94
-
1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W Creams - Appendix 2Fukushima, Shoji et al. | 2001
- 94
-
1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W Creams - ReferencesFukushima, Shoji et al. | 2001
- 99
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 1 IntroductionBorkovec, Michal et al. | 2001
- 99
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 1Borkovec, Michal et al. | 2001
- 107
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 2 Experimental Techniques - 2.1 Macroscopic TechniquesBorkovec, Michal et al. | 2001
- 107
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 2 Experimental TechniquesBorkovec, Michal et al. | 2001
- 107
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 2 Experimental Techniques - 2.1 Macroscopic Techniques - 2.1.1 Definition and Measurement of pHBorkovec, Michal et al. | 2001
- 110
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 2 Experimental Techniques - 2.1 Macroscopic Techniques - 2.1.2 Potentiometric Titration TechniquesBorkovec, Michal et al. | 2001
- 114
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 2 Experimental Techniques - 2.1 Macroscopic Techniques - 2.1.3 Other Macroscopic TechniquesBorkovec, Michal et al. | 2001
- 116
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 2 Experimental Techniques - 2.2 Spectroscopic MethodsBorkovec, Michal et al. | 2001
- 116
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 2 Experimental Techniques - 2.2 Spectroscopic Methods - 2.2.1 Nuclear Magnetic Resonance (NMR) TechniquesBorkovec, Michal et al. | 2001
- 127
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 2 Experimental Techniques - 2.2 Spectroscopic Methods - 2.2.2 Optical and Other Spectroscopic MethodsBorkovec, Michal et al. | 2001
- 131
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 3 Modeling of Ionizable Systems - 3.1 General ConsiderationsBorkovec, Michal et al. | 2001
- 131
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 3 Modeling of Ionizable SystemsBorkovec, Michal et al. | 2001
- 134
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 3 Modeling of Ionizable Systems - 3.2 Computer Simulation TechniquesBorkovec, Michal et al. | 2001
- 135
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 3 Modeling of Ionizable Systems - 3.3 Simple Electrolyte SolutionsBorkovec, Michal et al. | 2001
- 136
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 3 Modeling of Ionizable Systems - 3.3 Simple Electrolyte Solutions - 3.3.1 Poisson-Boltzmann (PB) and Debye-Hückel (DH) ApproximationsBorkovec, Michal et al. | 2001
- 138
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 3 Modeling of Ionizable Systems - 3.3 Simple Electrolyte Solutions - 3.3.2 An Illustrative ExampleBorkovec, Michal et al. | 2001
- 142
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 3 Modeling of Ionizable Systems - 3.3 Simple Electrolyte Solutions - 3.3.3 Beyond the Poisson-Boltzmann (PB) ApproximationBorkovec, Michal et al. | 2001
- 144
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 3 Modeling of Ionizable Systems - 3.4 Charged Molecules and Macromolecules in WaterBorkovec, Michal et al. | 2001
- 144
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 3 Modeling of Ionizable Systems - 3.4 Charged Molecules and Macromolecules in Water - 3.4.1 Debye-Hückel (DH) and Poisson-Boltzmann (PB) TreatmentBorkovec, Michal et al. | 2001
- 145
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 3 Modeling of Ionizable Systems - 3.4 Charged Molecules and Macromolecules in Water - 3.4.2 High-Salt versus Low-Salt RegimeBorkovec, Michal et al. | 2001
- 148
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 3 Modeling of Ionizable Systems - 3.4 Charged Molecules and Macromolecules in Water - 3.4.3 Toward Detailed Molecular ModelsBorkovec, Michal et al. | 2001
- 152
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 3 Modeling of Ionizable Systems - 3.5 Treatment of Ionization EquilibriaBorkovec, Michal et al. | 2001
- 152
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 3 Modeling of Ionizable Systems - 3.5 Treatment of Ionization Equilibria - 3.5.1 Single Ionizable SiteBorkovec, Michal et al. | 2001
- 155
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 3 Modeling of Ionizable Systems - 3.5 Treatment of Ionization Equilibria - 3.5.3 Macroscopic DescriptionBorkovec, Michal et al. | 2001
- 155
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 3 Modeling of Ionizable Systems - 3.5 Treatment of Ionization Equilibria - 3.5.2 Localized versus Delocalized BindingBorkovec, Michal et al. | 2001
- 157
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 3 Modeling of Ionizable Systems - 3.5 Treatment of Ionization Equilibria - 3.5.4 Microscopic DescriptionBorkovec, Michal et al. | 2001
- 162
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 3 Modeling of Ionizable Systems - 3.5 Treatment of Ionization Equilibria - 3.5.5 Adding Internal Degrees of FreedomBorkovec, Michal et al. | 2001
- 163
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 4 Small Molecules - 4.1 Monoprotic Acids and BasesBorkovec, Michal et al. | 2001
- 163
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 4 Small MoleculesBorkovec, Michal et al. | 2001
- 163
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 4 Small Molecules - 4.1 Monoprotic Acids and Bases - 4.1.1. Equilibrium ConstantsBorkovec, Michal et al. | 2001
- 165
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 4 Small Molecules - 4.1 Monoprotic Acids and Bases - 4.1.2 Titration BehaviorBorkovec, Michal et al. | 2001
- 167
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 4 Small Molecules - 4.1 Monoprotic Acids and Bases - 4.1.3 Experimental DataBorkovec, Michal et al. | 2001
- 169
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 4 Small Molecules - 4.2 Diprotic Acids and BasesBorkovec, Michal et al. | 2001
- 169
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 4 Small Molecules - 4.2 Diprotic Acids and Bases - 4.2.1 Macroscopic DescriptionBorkovec, Michal et al. | 2001
- 170
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 4 Small Molecules - 4.2 Diprotic Acids and Bases - 4.2.2 Microscopic DescriptionBorkovec, Michal et al. | 2001
- 176
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 4 Small Molecules - 4.2 Diprotic Acids and Bases - 4.2.3 Conformational Degrees of FreedomBorkovec, Michal et al. | 2001
- 177
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 4 Small Molecules - 4.2 Diprotic Acids and Bases - 4.2.4 Equivalent SitesBorkovec, Michal et al. | 2001
- 178
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 4 Small Molecules - 4.3 Oligoprotic Acids and Bases - 4.3.1 Macroscopic DescriptionBorkovec, Michal et al. | 2001
- 178
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 4 Small Molecules - 4.3 Oligoprotic Acids and BasesBorkovec, Michal et al. | 2001
- 180
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 4 Small Molecules - 4.3 Oligoprotic Acids and Bases - 4.3.2 Microscopic Description for Triprotic Acids and BasesBorkovec, Michal et al. | 2001
- 184
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 4 Small Molecules - 4.3 Oligoprotic Acids and Bases - 4.3.3 Equivalent SitesBorkovec, Michal et al. | 2001
- 185
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 4 Small Molecules - 4.3 Oligoprotic Acids and Bases - 4.3.4 Linear MoleculesBorkovec, Michal et al. | 2001
- 195
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 4 Small Molecules - 4.4 Noninteracting Sites - 4.4.1 Microscopic versus Macroscopic PictureBorkovec, Michal et al. | 2001
- 195
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 4 Small Molecules - 4.4 Noninteracting SitesBorkovec, Michal et al. | 2001
- 199
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 4 Small Molecules - 4.4 Noninteracting Sites - 4.4.2 Affinity DistributionsBorkovec, Michal et al. | 2001
- 203
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 4 Small Molecules - 4.5 Interpretation and Prediction of Ionization Constants - 4.5.1 Empirical MethodsBorkovec, Michal et al. | 2001
- 203
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 4 Small Molecules - 4.5 Interpretation and Prediction of Ionization ConstantsBorkovec, Michal et al. | 2001
- 206
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 4 Small Molecules - 4.5 Interpretation and Prediction of Ionization Constants - 4.5.2 Methods Based on First PrinciplesBorkovec, Michal et al. | 2001
- 212
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 5 ProteinsBorkovec, Michal et al. | 2001
- 213
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 5 Proteins - 5.1 The Null ModelBorkovec, Michal et al. | 2001
- 217
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 5 Proteins - 5.2 The Smeared-Out Charge ModelBorkovec, Michal et al. | 2001
- 222
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 5 Proteins - 5.3 The Tanford-Kirkwood ModelBorkovec, Michal et al. | 2001
- 224
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 5 Proteins - 5.3 The Tanford-Kirkwood Model - 5.3.1 Solution Techniques of the Ionization ProblemBorkovec, Michal et al. | 2001
- 225
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 5 Proteins - 5.3 The Tanford-Kirkwood Model - 5.3.2 Shifts in Ionization ConstantsBorkovec, Michal et al. | 2001
- 227
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 5 Proteins - 5.4 Recent Developments in Dielectric Continuum ModelsBorkovec, Michal et al. | 2001
- 227
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 5 Proteins - 5.4 Recent Developments in Dielectric Continuum Models - 5.4.1 General MethodologyBorkovec, Michal et al. | 2001
- 229
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 5 Proteins - 5.4 Recent Developments in Dielectric Continuum Models - 5.4.2 Case StudiesBorkovec, Michal et al. | 2001
- 237
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 5 Proteins - 5.4 Recent Developments in Dielectric Continuum Models - 5.4.3 Side Chain FlexibilityBorkovec, Michal et al. | 2001
- 238
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 5 Proteins - 5.5 Beyond Dielectric Continuum ModelsBorkovec, Michal et al. | 2001
- 245
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 5 Proteins - 5.6 Protein FoldingBorkovec, Michal et al. | 2001
- 246
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 6 PolyelectrolytesBorkovec, Michal et al. | 2001
- 247
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 6 Polyelectrolytes - 6.1 Mean-Field ModelsBorkovec, Michal et al. | 2001
- 249
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 6 Polyelectrolytes - 6.2 Nearest-Neighbor Chain Interaction ModelsBorkovec, Michal et al. | 2001
- 252
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 6 Polyelectrolytes - 6.3 Discrete Charge ModelBorkovec, Michal et al. | 2001
- 255
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 6 Polyelectrolytes - 6.3 Discrete Charge Model - 6.3.1 Mean-Field and Smearing-Out ApproximationsBorkovec, Michal et al. | 2001
- 257
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 6 Polyelectrolytes - 6.3 Discrete Charge Model - 6.3.2 Chain FlexibilityBorkovec, Michal et al. | 2001
- 260
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 6 Polyelectrolytes - 6.4 PolyaminesBorkovec, Michal et al. | 2001
- 260
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 6 Polyelectrolytes - 6.4 Polyamines - 6.4.1 Linear PolyaminesBorkovec, Michal et al. | 2001
- 263
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 6 Polyelectrolytes - 6.4 Polyamines - 6.4.2 Branched PolyaminesBorkovec, Michal et al. | 2001
- 268
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 6 Polyelectrolytes - 6.5 PolycarboxylatesBorkovec, Michal et al. | 2001
- 268
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 6 Polyelectrolytes - 6.5 Polycarboxylates - 6.5.1 Weakly Charged Linear PolycarboxylatesBorkovec, Michal et al. | 2001
- 272
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 6 Polyelectrolytes - 6.5 Polycarboxylates - 6.5.2 Highly Charged Linear PolycarboxylatesBorkovec, Michal et al. | 2001
- 274
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 6 Polyelectrolytes - 6.6 Humic AcidsBorkovec, Michal et al. | 2001
- 276
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 7 Ionizable InterfacesBorkovec, Michal et al. | 2001
- 276
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 7 Ionizable Interfaces - 7.1 Diffuse Layer Model and Its GeneralizationBorkovec, Michal et al. | 2001
- 281
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 7 Ionizable Interfaces - 7.1 Diffuse Layer Model and Its Generalization - 7.1.1 Nernstian SurfaceBorkovec, Michal et al. | 2001
- 282
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 7 Ionizable Interfaces - 7.1 Diffuse Layer Model and Its Generalization - 7.1.2 Basic Stern ModelBorkovec, Michal et al. | 2001
- 283
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 7 Ionizable Interfaces - 7.1 Diffuse Layer Model and Its Generalization - 7.1.3 Specific Counterion BindingBorkovec, Michal et al. | 2001
- 284
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 7 Ionizable Interfaces - 7.2 Discrete Charge ModelBorkovec, Michal et al. | 2001
- 287
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 7 Ionizable Interfaces - 7.2 Discrete Charge Model - 7.2.1 Smearing-Out ApproximationBorkovec, Michal et al. | 2001
- 288
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 7 Ionizable Interfaces - 7.2 Discrete Charge Model - 7.2.2 1-pK versus 2-pK ModelsBorkovec, Michal et al. | 2001
- 290
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 7 Ionizable Interfaces - 7.2 Discrete Charge Model - 7.2.3 pK ShiftsBorkovec, Michal et al. | 2001
- 291
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 7 Ionizable Interfaces - 7.3 Latex ParticlesBorkovec, Michal et al. | 2001
- 295
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 7 Ionizable Interfaces - 7.4 Ionizable MonolayersBorkovec, Michal et al. | 2001
- 297
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 7 Ionizable Interfaces - 7.5 Metal Oxide and Metal Hydroxide ParticlesBorkovec, Michal et al. | 2001
- 297
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 7 Ionizable Interfaces - 7.5 Metal Oxide and Metal Hydroxide Particles - 7.5.1 Experimental AspectsBorkovec, Michal et al. | 2001
- 299
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 7 Ionizable Interfaces - 7.5 Metal Oxide and Metal Hydroxide Particles - 7.5.2 Data InterpretationBorkovec, Michal et al. | 2001
- 302
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 7 Ionizable Interfaces - 7.5 Metal Oxide and Metal Hydroxide Particles - 7.5.3 GoethiteBorkovec, Michal et al. | 2001
- 305
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 7 Ionizable Interfaces - 7.5 Metal Oxide and Metal Hydroxide Particles - 7.5.4 HematiteBorkovec, Michal et al. | 2001
- 306
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 7 Ionizable Interfaces - 7.5 Metal Oxide and Metal Hydroxide Particles - 7.5.5 Rutile and AnataseBorkovec, Michal et al. | 2001
- 307
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 7 Ionizable Interfaces - 7.5 Metal Oxide and Metal Hydroxide Particles - 7.5.6 GibbsiteBorkovec, Michal et al. | 2001
- 308
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 7 Ionizable Interfaces - 7.5 Metal Oxide and Metal Hydroxide Particles - 7.5.7 SilicaBorkovec, Michal et al. | 2001
- 309
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 8 DiscussionBorkovec, Michal et al. | 2001
- 312
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - Appendix A Electrostatics of Point ChargesBorkovec, Michal et al. | 2001
- 313
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - Appendix A Electrostatics of Point Charges - A.1 Planar InterfaceBorkovec, Michal et al. | 2001
- 315
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - Appendix A Electrostatics of Point Charges - A.2 SphereBorkovec, Michal et al. | 2001
- 318
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - Appendix A Electrostatics of Point Charges - A.3 CylinderBorkovec, Michal et al. | 2001
- 319
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - Appendix B Further Tools in the Ising Model AnalysisBorkovec, Michal et al. | 2001
- 319
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - Appendix B Further Tools in the Ising Model Analysis - B.1 Cluster ExpansionBorkovec, Michal et al. | 2001
- 321
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - Appendix B Further Tools in the Ising Model Analysis - B.2 Other Choices of State VariablesBorkovec, Michal et al. | 2001
- 322
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - Appendix B Further Tools in the Ising Model Analysis - B.3 Mean-Field Cluster ExpansionsBorkovec, Michal et al. | 2001
- 323
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - Appendix B Further Tools in the Ising Model Analysis - B.4 Mean-Field Treatment of Nonequivalent SitesBorkovec, Michal et al. | 2001
- 324
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - Appendix B Further Tools in the Ising Model Analysis - B.5 Square Lattice with Nearest-Neighbor InteractionsBorkovec, Michal et al. | 2001
- 325
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - Appendix C Affinity Distribution ApproachBorkovec, Michal et al. | 2001
- 326
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - Appendix C Affinity Distribution Approach - C.1 Derivation from Simple ModelsBorkovec, Michal et al. | 2001
- 327
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - Appendix C Affinity Distribution Approach - C.2 Experimental Data InversionBorkovec, Michal et al. | 2001
- 330
-
2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - ReferencesBorkovec, Michal et al. | 2001
- 341
-
3 Combined Application of Radiochemical and Electrochemical Methods for the Investigation of Solid-Liquid Interfaces - 1 Introduction - 1.1 On the Significance of Radiotracer Methods in Sorption StudiesVarga, Kálmán et al. | 2001
- 341
-
3 Combined Application of Radiochemical and Electrochemical Methods for the Investigation of Solid-Liquid Interfaces - 1 IntroductionVarga, Kálmán et al. | 2001
- 341
-
3 Combined Application of Radiochemical and Electrochemical Methods for the Investigation of Solid-Liquid InterfacesVarga, Kálmán et al. | 2001
- 344
-
3 Combined Application of Radiochemical and Electrochemical Methods for the Investigation of Solid-Liquid Interfaces - 1 Introduction - 1.2 General Problems of Radioactive Contamination StudiesVarga, Kálmán et al. | 2001
- 346
-
3 Combined Application of Radiochemical and Electrochemical Methods for the Investigation of Solid-Liquid Interfaces - 2 An Overview of Radiotracer MethodsVarga, Kálmán et al. | 2001
- 346
-
3 Combined Application of Radiochemical and Electrochemical Methods for the Investigation of Solid-Liquid Interfaces - 2 An Overview of Radiotracer Methods - 2.1 Methods Used for the Investigation of Interfacial PhenomenaVarga, Kálmán et al. | 2001
- 347
-
3 Combined Application of Radiochemical and Electrochemical Methods for the Investigation of Solid-Liquid Interfaces - 2 An Overview of Radiotracer Methods - 2.1 Methods Used for the Investigation of Interfacial Phenomena - 2.1.1 Experimental Techniques: A Historical SurveyVarga, Kálmán et al. | 2001
- 353
-
3 Combined Application of Radiochemical and Electrochemical Methods for the Investigation of Solid-Liquid Interfaces - 2 An Overview of Radiotracer Methods - 2.1 Methods Used for the Investigation of Interfacial Phenomena - 2.1.2 Recent ProgressVarga, Kálmán et al. | 2001
- 360
-
3 Combined Application of Radiochemical and Electrochemical Methods for the Investigation of Solid-Liquid Interfaces - 2 An Overview of Radiotracer Methods - 2.2 Methods Used for the Investigation of Radioactive Contamination-Decontamination of Constructional MaterialsVarga, Kálmán et al. | 2001
- 362
-
3 Combined Application of Radiochemical and Electrochemical Methods for the Investigation of Solid-Liquid Interfaces - 3 Selected ResultsVarga, Kálmán et al. | 2001
- 362
-
3 Combined Application of Radiochemical and Electrochemical Methods for the Investigation of Solid-Liquid Interfaces - 3 Selected Results - 3.1 Adsorption of Anions and Cations on Polycrystalline GoldVarga, Kálmán et al. | 2001
- 362
-
3 Combined Application of Radiochemical and Electrochemical Methods for the Investigation of Solid-Liquid Interfaces - 3 Selected Results - 3.1 Adsorption of Anions and Cations on Polycrystalline Gold - 3.1.1 Comparative Study of Specific Adsorption of Cl-, HSO--4-SO2--4 and HSO--3-SO2--3 IonsVarga, Kálmán et al. | 2001
- 373
-
3 Combined Application of Radiochemical and Electrochemical Methods for the Investigation of Solid-Liquid Interfaces - 3 Selected Results - 3.1 Adsorption of Anions and Cations on Polycrystalline Gold - 3.1.2 Electrosorption of Ag and Co SpeciesVarga, Kálmán et al. | 2001
- 381
-
3 Combined Application of Radiochemical and Electrochemical Methods for the Investigation of Solid-Liquid Interfaces - 3 Selected Results - 3.2 Accumulation of 110mAg on an Austenitic Stainless SteelVarga, Kálmán et al. | 2001
- 385
-
3 Combined Application of Radiochemical and Electrochemical Methods for the Investigation of Solid-Liquid Interfaces - 3 Selected Results - 3.3 Sorption Behavior of Duplex Stainless Steels in HCl and H2SO4 Solutions - 3.3.1 Time and Concentration Dependence of Cl- and HSO--4-SO2--4 AccumulationsVarga, Kálmán et al. | 2001
- 385
-
3 Combined Application of Radiochemical and Electrochemical Methods for the Investigation of Solid-Liquid Interfaces - 3 Selected Results - 3.3 Sorption Behavior of Duplex Stainless Steels in HCl and H2SO4 SolutionsVarga, Kálmán et al. | 2001
- 387
-
3 Combined Application of Radiochemical and Electrochemical Methods for the Investigation of Solid-Liquid Interfaces - 3 Selected Results - 3.3 Sorption Behavior of Duplex Stainless Steels in HCl and H2SO4 Solutions - 3.3.2 Potential Dependence of Cl- and HSO--4-SO2--4 AccumulationsVarga, Kálmán et al. | 2001
- 390
-
References| 2001
- 390
-
4 Conclusions| 2001
- 395
-
Author Index| 2001
- 405
-
Subject Index| 2001