Organic/Inorganic Hybrid Materials - 2004:
Cambridge University Press, Jul 29, 2005 - Technology & Engineering - 577 pages
Interest in hybrid materials has accelerated recently, in particular because tailoring materials properties through organization of organic/inorganic composites at nanometer length scales is now an important focus for numerous diverse research domains. This book's objective here is to create a communal forum for researchers involved in all areas of organic/inorganic hybrid materials to share perspectives, to learn about leading-edge science and engineering occurring around the world, and to develop new ideas. The book is divided into focus areas that address synthesis and characterization methods, functional hybrid materials, hybrid materials influenced by biology, structured mesoporous materials and materials with multiscale organization. Topics include: methods of patterning hybrid materials; hybrid materials for photonic applications; mesoporous films and monoliths; biofunctional materials; layered hybrid materials; applications-oriented hybrid materials; hybrid materials for electronics, optoelectronics and semiconductor applications; methods of characterizing hybrid materials; and novel synthetic methods.
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From RaspberryLike to DumbbellLike Hybrid
SingleStep Microstructure Patterning in TitaniaDoped
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2005 Materials Research absorption acid adsorption aerogel alkoxides aqueous atoms cell characterization Chem chemical clay co-continuous colloidal composites concentration condensation copolymer crystallization decrease dendrimer diameter dielectric dielectric constant dip coating electron ethanol EXPERIMENTAL formation function gels groups HAp-PVA hybrid hybrid materials increase inorganic interaction intercalation ions irradiation layers ligands macromonomer macroporous magnetic Materials Research Society matrix measured membrane mesophase mesoporous mesostructure metal micelles molar ratio molecular molecules monoliths monomer morphology Nafion nanocomposite nanoparticles nanotubes observed obtained optical optical fibers organic organic/inorganic hybrid oxide particles patterns peak phase Phys PMMA polymer polymerization polypyrrole pore porosity porous POSS precursors prepared Proc properties reaction refractive index resin room temperature samples shown in Figure shows silane silica silicon siloxane sol-gel solid solution solvent spectra structure substrate surface area surfactant Symp synthesis thermal thin films TiO2 vanadium volume waveguide X-ray diffraction