05287nam 2200685Ia 450 991073699940332120200413214022.01-281-91122-497866119112250-08-092157-4(CKB)1000000000553244(EBL)365660(OCoLC)476198735(SSID)ssj0000229290(PQKBManifestationID)12043297(PQKBTitleCode)TC0000229290(PQKBWorkID)10173066(PQKB)11470674(MiAaPQ)EBC365660(PPN)182566501(EXLCZ)99100000000055324420080630d2008 uy 0engur|n|---|||||txtccrThe properties of water and their role in colloidal and biological systems /Carel Jan van OssAmsterdam ;London Elsevier/Academic Press20081 online resource (239 p.)Interface science and technology ;v. 16Description based upon print version of record.0-12-374303-6 Includes bibliographical references and index.Front cover; The Properties of Water and their Role in Colloidal and Biological Systems; Copyright page; Contents; Preface; Chapter 1. General and Historical Introduction; Preamble; 1. Some Examples of Polar Forces Interacting in the Mammalian Blood Circulation; 2. Early Examples of the Treatment of Non-Covalent Interactions in Water; 3. Macroscopic-Scale Interactions, Chaudhury's Thesis and Lifshitz-van der Waals Forces4. Rules for Repulsive Apolar (van der Waals) Forces between Different Polymers Dissolved in an Apolar Liquid, Compared with the Rules for Repulsive Polar (Lewis Acid-Base) Forces between Identical Polymers, Particles or Cells, Immersed in Water5. The Fallacy of Designating Only One Single Component to Represent the Polar Properties of the Surface Tension of a Polar Condensed-Phase Material; 6. More Recent Developments; Section A: Non-Covalent Energies of Interaction-Equations and Combining Rules; Chapter 2. The Apolar and Polar Properties of Liquid Water and Other Condensed-Phase Materials1. The gammaLW and gammaAB Equations2. The Values for gammaLW, gamma+ and gamma- for Water at 20°C; 3. Apolar and Polar Surface Properties of Various Other Condensed-Phase Materials; Chapter 3. The Extended DLVO Theory; 1. Hamaker Constants and the Minimum Equilibrium Distance between Two Non-Covalently Interacting Surfaces of Condensed-Phase Materials; 2. The DLVO Theory Extended by the Addition of Polar Interaction Energies Occurring in Water; 3. Decay with Distance of Lifshitz-van der Waals Interactions; 4. Decay with Distance of Lewis Acid-Base Interactions5. Decay with Distance of Electrical Double Layer Interactions6. Influence of the Ionic Strength on Non-Covalent Interactions in Water; 7. An EL-AB Linkage; 8. Role of the Radius of Curvature, R, of Round Particles or Processes in Surmounting AB Repulsions in Water; 9. Comparison between Direct Measurements via Force Balance or Atomic Force Microscopy, and Data Obtained via Contact Angle Determinations, in the Interpretation of Free Energies vs Distance Plots of the Extended DLVO ApproachSection B: Surface Thermodynamic Properties of Water with Respect to Condensed-Phase Materials Immersed in ItChapter 4. Determination of Interfacial Tensions between Water and Other Condensed-Phase Materials; 1. The Interfacial Tension between a Solid (S) and a Liquid (L); 2. The Interfacial Tension between an Apolar Material or Compound (A) and Water (W); 3. The Interfacial Tension between Polar Compounds or Materials and Water; Chapter 5. The interfacial tension/free energyof interaction between water and identical condensed-phase entities, i, immersedin water, w1. The DeltaGiwi Equation Pertaining to Identical Entities, i, Immersed in Water, wThis book treats the different current as well as unusual and hitherto often unstudied physico-chemical and surface-thermodynamic properties of water that govern all polar interactions occurring in it. These properties include the hyper-hydrophobicity of the water-air interface, the cluster formation of water molecules in the liquid state and the concomitant variability of the ratio of the electron-accepticity to electron-donicity of liquid water as a function of temperature, T. The increase of that ratio with T is the cause of the increase in hydration repulsion ("hydration pressure?) betweInterface science and technology ;v. 16.WaterAnalysisWaterPropertiesSurface chemistrySurfaces (Physics)WaterAnalysis.WaterProperties.Surface chemistry.Surfaces (Physics)546.22546.22Van Oss Carel J15935MiAaPQMiAaPQMiAaPQBOOK9910736999403321The properties of water and their role in colloidal and biological systems3427834UNINA