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) Techniques (Englisch)
- Neue Suche nach: Borkovec, Michal
- Neue Suche nach: Borkovec, Michal
- Neue Suche nach: Jönsson, Bo
- Neue Suche nach: Koper, Ger J.M.
In:
Surface and colloid science
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16
; 116-126
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2001
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ISSN:
- Aufsatz (Zeitschrift) / Print
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Titel: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) Techniques
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Beteiligte:
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Erschienen in:Surface and colloid science ; 16 ; 116-126
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Verlag:
- Neue Suche nach: Kluwer Acad./Plenum Publ.
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Erscheinungsort:New York, NY [u.a.]
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Erscheinungsdatum:2001
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ISSN:
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ZDBID:
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Medientyp:Aufsatz (Zeitschrift)
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Format:Print
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Sprache:Englisch
- Neue Suche nach: 35.18 / 35.18
- Weitere Informationen zu Basisklassifikation
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Klassifikation:
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Datenquelle:
Inhaltsverzeichnis – Band 16
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1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W CreamsFukushima, Shoji et al. | 2001
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1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W Creams - IntroductionFukushima, Shoji et al. | 2001
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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
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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
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1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W Creams - 1 Cetyl AlcoholFukushima, Shoji et al. | 2001
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W Creams - Appendix 2Fukushima, Shoji et al. | 2001
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1 Physical Chemistry of Cetyl Alcohol: Occurrence and Function of Liquid Crystals in O-W Creams - ReferencesFukushima, Shoji et al. | 2001
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2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 1 IntroductionBorkovec, Michal et al. | 2001
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2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 1Borkovec, Michal et al. | 2001
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2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 2 Experimental TechniquesBorkovec, Michal et al. | 2001
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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
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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
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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
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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
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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
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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
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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
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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
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2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 3 Modeling of Ionizable SystemsBorkovec, Michal et al. | 2001
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 4 Small MoleculesBorkovec, Michal et al. | 2001
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 5 ProteinsBorkovec, Michal et al. | 2001
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 6 PolyelectrolytesBorkovec, Michal et al. | 2001
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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
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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
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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
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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
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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
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2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 6 Polyelectrolytes - 6.4 PolyaminesBorkovec, Michal et al. | 2001
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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
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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
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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
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2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 6 Polyelectrolytes - 6.5 PolycarboxylatesBorkovec, Michal et al. | 2001
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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
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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
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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
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2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 7 Ionizable InterfacesBorkovec, Michal et al. | 2001
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - 8 DiscussionBorkovec, Michal et al. | 2001
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - Appendix C Affinity Distribution ApproachBorkovec, Michal et al. | 2001
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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
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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
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2 Ionization Processes and Proton Binding in Polyprotic Systems: Small Molecules, Proteins, Interfaces, and Polyelectrolytes - ReferencesBorkovec, Michal et al. | 2001
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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
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3 Combined Application of Radiochemical and Electrochemical Methods for the Investigation of Solid-Liquid Interfaces - 1 IntroductionVarga, Kálmán et al. | 2001
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3 Combined Application of Radiochemical and Electrochemical Methods for the Investigation of Solid-Liquid InterfacesVarga, Kálmán et al. | 2001
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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
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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
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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
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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
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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
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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
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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
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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
- 362
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3 Combined Application of Radiochemical and Electrochemical Methods for the Investigation of Solid-Liquid Interfaces - 3 Selected ResultsVarga, Kálmán et al. | 2001
- 373
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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
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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
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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
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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
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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
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4 Conclusions| 2001
- 390
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References| 2001
- 395
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Author Index| 2001
- 405
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Subject Index| 2001