Hybrid Organic-Inorganic Interfaces: Towards Advanced Functional Materials

Hybrid organic–inorganic materials and the rational design of their interfaces open up the access to a wide spectrum of functionalities not achievable with traditional concepts of materials science. This innovative class of materials has a major impact in many application domains such as optics, electronics, mechanics, energy storage, and conversion, protective coatings, catalysis, sensing, and nanomedicine. The properties of these materials do not only depend on the chemical structure, and the mutual interaction between their nano–scale building blocks, but are also strongly influenced by the interfaces they share. This handbook focuses on the most recent investigations concerning the design, control, and dynamics of hybrid organic–inorganic interfaces, covering: (i) characterization methods of interfaces, (ii) innovative computational approaches and simulation of interaction processes, (iii) in–situ studies of dynamic aspects controlling the formation of these interfaces, and (iv) the role of the interface for process optimization, devices, and applications in such areas as optics, electronics, energy, and medicine. INDICE: PART I. INTERFACE IN 2D/3D NANOCOMPOSITES AND APPLICATIONS. Clay–Organic Interfaces for Design of Functional Hybrid Materials. Hybrid Nanocomposites Based on Prussian Blue Type Nanoparticles Included into Polysaccharides Matrixes. Self–Healing Thermosetting Composites: Concepts, Chemistry and Future Advances . Silica Polymer Interface and Mechanical Reinforcement in Rubber Nanocomposites . Sustainable Organic–Inorganic Interfaces in Energy Applications and Devices . Tough and Stretchable Hydrogels and Their Utilization in Integrated Electronics. Grafting of Conjugated Polymers on Inorganic Substrates: Elaboration of Novel Hybrid Interface for Organic Electronic . Hybrid Organic–Inorganic Nanostructures for Spin Switching and Spintronic . Application of Sol–Gel Method to Synthesize Organic–Inorganic Hybrid Coatings to Minimize Corrosion in Metallic . Gas–Organic and Gas–Inorganic Interfacial Effects in Gas–Adsorbent Interactions: the Case of CO2/. CH4 Separation . Design and Characterization of MOFs (Metal Organic Frameworks) for Innovative Applications. Ionic Liquid Based Approaches to Carbon Materials Synthesis. . PART II. THE INTERFACE OF HYBRID MATERIALS IN BIOAPPLICATIONS. Ionic Liquid–Assisted Synthesis of Biomaterials. Interface Engineering with Self–Assembled Monolayers in Biosensors. Coordination Polymers for Medical Applications: Amorphous Versus Crystalline Materials. Chemical Adjustment of the Interface Between Silicate Nanoparticles and Biological Media for Imaging and Therapy. High Pressure Hydrothermal Procedure: A Tool for Surface Modification of Super–Paramagnetic Nanostructured Materials for Medical Applications . Silica–Based Organic–Inorganic Hybrid Nanomaterials for Bioimaging. Lanthanide–Based Nanosystems for Multimodal Imaging. Bio–Hybrids. . PART III. INTERFACES MODELING AND IN– AND EX– SITU CHARACTERIZATION TECHNIQUES. In–Situ and Ex–Situ Electrochemical Measurements: Spectroelectrochemistry and Atomic Force Microscopy . Nuclear Magnetic Resonance as a Tool for the Investigation of the Interfaces and Textures of Nanostructured Hybrid Materials. Electrostatic Force Microscopy Techniques for Interphase Characterization. Electron Paramagnetic Resonance as a Tool for in–Situ Characterization of Hybrid Interfaces and Nanomaterials. In–Situ Interface Control Techniques for Advanced Hybrid Materials. Influence of Gold–Surface Interactions on the Josephin Domain Dimerization Mechanism: A Computational Study. SANO Methodology for Simulating Self–Assembly Patterns of Organic Molecules over Metal Surfaces .

• ISBN: 9783527342556
• Editorial: Wiley VCH
• Encuadernacion: Rústica
• Páginas: 1048
• Fecha Publicación: 27/12/2017
• Nº Volúmenes: 1
• Idioma: Inglés