Advanced Materials Interfaces.

Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Tiwari, Ashutosh
Otros Autores: Patra, Hirak K., Wang, Xuemei
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Somerset : Wiley, 2016.
Colección:Advanced Material Series.
Temas:
Solid-liquid interfaces.
Macromolecules.
Supramolecular chemistry.
Interfaces solide-liquide.
Chimie supramoléculaire.
Macromolecules
Solid-liquid interfaces
Supramolecular chemistry
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Cover; Title Page; Copyright Page; Contents; Preface; Part 1 Interfaces Design, Fabrication, and Properties; 1 Mixed Protein/Polymer Nanostructures at Interfaces; 1.1 Introduction; 1.2 Neutral and Charged Macromolecules at Interfaces; 1.3 Interfacial Experimental Methods; 1.4 Interactions of Proteins with Polymer-Free Interfaces; 1.5 Polymers and Proteins in Solution; 1.6 Proteins at Polymer-Modified Interfaces; 1.6.1 Steric Effects; 1.6.2 Polyelectrolyte Multilayers: Electrostatic Nature of Interactions; 1.6.3 Counterion Release: Charge Anisotropy.
  • 1.7 Protein-Loaded Interfaces with Potential for Applications1.8 Conclusions; References; 2 Exploitation of Self-Assembly Phenomena in Liquid-Crystalline Polymer Phases for Obtaining Multifunctional Materials; 2.1 Introduction; 2.2 Amphiphilic Self-Assembled LCPs; 2.3 Self-Assembled LCPs Through External Stimuli; 2.4 Supramolecular Self-Assembled LCPs; 2.5 Self-Assembled LCPs Through Surface Effects; 2.6 Conclusions and Perspectives; References; 3 Scanning Probe Microscopy of Functional Materials Surfaces and Interfaces; 3.1 Introduction; 3.2 Scanning Probe Microscopy Approach.
  • 3.2.1 Piezoresponse Force Microscopy3.2.1.1 Advanced Modes of PFM; 3.2.1.2 Enhancing Temporal Resolution; 3.2.2 Conductive-Atomic Force Microscopy; 3.2.3 Kelvin Probe Force Microscopy; 3.3 Functional Material Surfaces and Interfaces; 3.3.1 Ferroelectric Tunnel Junctions; 3.3.2 Ferroic Domain Walls and Structural-Phase Boundaries; 3.3.3 Complex-Oxide Thin Films and Heterostructures; 3.3.4 Photovoltaics; 3.4 Conclusion and Outlook; References; 4 AFM Approaches to the Study of PDMS-Au and Carbon-Based Surfaces and Interfaces; 4.1 Introduction.
  • 4.2 AFM Characterization of Micro-Nano Surfaces and Interfaces of Carbon-Based Materials and PDMS-Au Nanocomposites4.3 3D Image Processing: ImageJ Tools; 4.4 Scanning Capacitance Microscopy, Kelvin Probe Microscopy, and Electromagnetic Characterization; 4.5 AFM Artifacts; 4.6 Conclusions (General Guidelines for Material Characterization by AFM); Acknowledgments; References; 5 One-Dimensional Silica Nanostructures and Metal-Silica Nanocomposites: Fabrication, Characterization, and Applications; 5.1 Introduction: The Weird World of Silica Nanowires and Metal-Silica Composite Nanowires.
  • 5.2 Silica Nanowires: Fabrication Methodologies, Properties, and Applications5.2.1 Metal-Catalyzed Growth; 5.2.2 Oxide-Assisted Growth; 5.3 Metal NPs-Decorated Silica Nanowires: Fabrication Methodologies, Properties, and Applications; 5.4 Metal NPs Embedded in Silica Nanowires: Fabrication Methodologies, Properties, and Applications; 5.5 Conclusions: Open Points and Perspectives; References; 6 Understanding the Basic Mechanisms Acting on Interfaces: Concrete Elements, Materials and Techniques; 6.1 Summary; 6.2 Introduction.

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