01131nam0 22002773i 450 SUN011051920170901100806.417978-88-921061-6-10.0020170901d2017 |0itac50 baitaIT|||| |||||*Autonomia privata e contrattotra sinallagma genetico e sinallagma funzionaleFrancesco Delfini2. edTorinoGiappichelli2017X, 265 p.24 cm.TorinoSUNL000001Delfini, FrancescoSUNV010855149598GiappichelliSUNV000045650ITSOL20181109RICAhttp://www.giappichelli.it/index.php?znfModule=public&znfAction=loadIndice&idArticolo=10741448SUN0110519UFFICIO DI BIBLIOTECA DEL DIPARTIMENTO DI GIURISPRUDENZA00 CONS XV.Eg.139 00 UBG1781 UFFICIO DI BIBLIOTECA DEL DIPARTIMENTO DI GIURISPRUDENZAUBG1781CONS XV.Eg.139paAutonomia privata e contratto1466337UNICAMPANIA03480nam 2200589 450 991013153600332120200520144314.01-119-14541-41-119-14538-41-119-14539-2(CKB)3710000000500676(EBL)4323067(MiAaPQ)EBC4323067(Au-PeEL)EBL4323067(CaPaEBR)ebr11251412(CaONFJC)MIL850050(OCoLC)935355355(PPN)201755262(EXLCZ)99371000000050067620160916d2015 uy| 0engur|n|---|||||rdacontentrdamediardacarrierPhysical chemistry and acid-base properties of surfaces /Jean-Charles Joud, Marie-Geneviève Barthés-LabrousseHoboken, NJ :Wiley,2015.1 online resource (156 p.)Focus materials in science seriesDescription based upon print version of record.1-84821-843-5 Includes bibliographical references and index.Table of Contents; Title; Copyright; Introduction; Chapter 1: Wettability of an Ideal Surface: Overview; 1.1. Wetting angle; 1.2. Adhesion effect; 1.3. Surface tension and free surface energy; Chapter 2: Real Surfaces; 2.1. Wenzel's model - topological defects; 2.2. Cassie-Baxter model: chemical defects; 2.3. Superhydrophilic surfaces; 2.4. Superhydrophobic surfaces; 2.5. Application; Chapter 3: Components of the Surface Energy; 3.1. Overview; 3.2. Molecular interactions and components of the energy; 3.3. The hydrogen bond; 3.4. Lewis acid-base interactions3.5. The effective components of the interaction energy3.6. Application; Chapter 4: The Acid-Base Component in the Work of Adhesion; 4.1. Overview; 4.2. Use of the acid-base component; 4.3. The Owens-Wendt approximation; 4.4. Van Oss-Good description; Chapter 5: Experimental Determination through Wettability Measurements; 5.1. One liquid method; 5.2. Two liquid method. Surfaces with high surface energy; 5.3. Applications of the two liquid method; 5.4. Comparison between Owens-Wendt and van Oss-Good methods; Chapter 6: Acid-Base Properties of Surfaces: Experimental Approaches; 6.1. Overview6.2. General methods6.3. Local methods; 6.4. Application examples; Chapter 7: Oxide-Solution Interfaces: Surface Charges; 7.1. Br_nsted acidity and basicity; 7.2. Point of zero charge (PZC); 7.3. The oxide-solution interface; 7.4. Electrocapillarity in the oxide-solution interface; Chapter 8: Electrocapillarity Applications; 8.1. Study based on the pH of the oxide surfaces; 8.2. Study of the stability of a liquid film on an oxide surface; 8.3. Modification of the contact angle by an imposed potential (Electrowetting); Conclusion; Bibliography; Index; End User License AgreementFocus series in materials science.Surface chemistryAcids-BasicityTechnologySurface chemistry.Acids-Basicity.Technology.541.3/3Joud Jean-Charles875255Barthés-Labrousse Marie-GenevièveMiAaPQMiAaPQMiAaPQBOOK9910131536003321Physical chemistry and acid-base properties of surfaces1954125UNINA