Sol-Gel Science and Technology: Topics in Fundamental Research and Applications (4 Volume Set)
Editat de Sumio Sakkaen Limba Engleză Hardback – 30 oct 2002
The four volumes of this reference treat four areas that are timely, important and seeing great research activity: -Sol-gel prepared ferroelectrics and related materials.
-Sol-gel processing of titanium oxides: photocatalyst and other applications.
-Sol-gel prepared organic-inorganic hybrids and nanocomposites.
-Sol-gel processing of porous materials: application to catalysts, enzymes, chemical analysis, sensors, and membranes.
The goal of these four volumes is to disseminate the recent research results published in recent issues of Journal of Sol-Gel Science and Technology, which is a unique journal devoted to Sol-Gel.
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Specificații
ISBN-13: 9781402072918
ISBN-10: 1402072910
Pagini: 1856
Ilustrații: LXII, 1777 p. In 4 volumes, not available separately.
Dimensiuni: 210 x 279 x 103 mm
Greutate: 1.14 kg
Ediția:2003
Editura: Springer Us
Colecția Springer
Locul publicării:New York, NY, United States
ISBN-10: 1402072910
Pagini: 1856
Ilustrații: LXII, 1777 p. In 4 volumes, not available separately.
Dimensiuni: 210 x 279 x 103 mm
Greutate: 1.14 kg
Ediția:2003
Editura: Springer Us
Colecția Springer
Locul publicării:New York, NY, United States
Public țintă
ResearchDescriere
The sol-gel method is known to produce materials from solutions either in bulk, coating films, fibers or powders. It is also known that this method makes low temperature processing of materials possible. This technology has dramatically grown in these two or three decades. Sol-Gel Science and Technology covers optical, electronic and magnetic, chemical, mechanical, biomedical and biotechnological materials. Concerning the microstructures, the sol-gel method applies to porous materials, dense materials like glasses and ceramics, organic-inorganic hybrids and nanocomposites.
The four volumes of this reference treat four areas that are timely, important and seeing great research activity: -Sol-gel prepared ferroelectrics and related materials.
-Sol-gel processing of titanium oxides: photocatalyst and other applications.
-Sol-gel prepared organic-inorganic hybrids and nanocomposites.
-Sol-gel processing of porous materials: application to catalysts, enzymes, chemical analysis, sensors, and membranes.
The goal of these four volumes is to disseminate the recent research results published in recent issues of Journal of Sol-Gel Science and Technology, which is a unique journal devoted to Sol-Gel. Papers have been selected from those published in volumes 16-25 of the Journal of Sol-Gel Science and Technology spanning the years 1999-2002.
Volume 1 presents papers on preparation, structure, properties and applications of ferroelectrics and related materials, such as, piezoelectric and pyroelectric materials. Representative ferroelectric materials include BaTiO3, Pb(Ti,Zr)O3, PbTiO3, LiNbO3, KNbO3, LiTaO3, and Pb(ZnNb)O3. Generally, these materials have a high dielectric constant and are characterized by large piezoelectric, pyroelectric and electrooptic effects as well as nonlinear optical effects. On the basis of these unique properties, ferroelectric materials have been applied to produce active elements of various devices.
Volume 2 contains papers on sol-gel processing of titanium oxides for photocatalyst and other recent applications. Titanium dioxide, TiO2, is both an old and new material with a variety of interesting functions. Conventionally, TiO2 was used mainly as light-scattering particles in porcelain enamel, ceramic glaze, white points and the suspension-type eraser. A more recent application of similar nature is the incorporation of TiO2 into UV- shielding cosmetics, which protect human skin from UV damage. TiO2 is also employed as nucleating agent for crystallization of glass, providing glass-ceramics.
Papers on sol-gel prepared organic-inorganic hybrids and nanocomposites are compiled in Volume 3. Typical organic-inorganic hybrids have a microstructure in which inorganic species like -Si-O-Ti-O- are combined with organic polymers like polymethylmethacrylate chains at the molecular level.
Volume 4 compiles papers on the gel as porous material. Porous gels with nano-size pores and micron-size pores are applied to formation of catalysts, enzymes, chemical analysis, sensors and membranes. Pore surfaces are significant because they serve as the absorption and reaction site for catalysts, enzymes, chemical reaction, and sensing molecules or atoms.
The four volumes of this reference treat four areas that are timely, important and seeing great research activity: -Sol-gel prepared ferroelectrics and related materials.
-Sol-gel processing of titanium oxides: photocatalyst and other applications.
-Sol-gel prepared organic-inorganic hybrids and nanocomposites.
-Sol-gel processing of porous materials: application to catalysts, enzymes, chemical analysis, sensors, and membranes.
The goal of these four volumes is to disseminate the recent research results published in recent issues of Journal of Sol-Gel Science and Technology, which is a unique journal devoted to Sol-Gel. Papers have been selected from those published in volumes 16-25 of the Journal of Sol-Gel Science and Technology spanning the years 1999-2002.
Volume 1 presents papers on preparation, structure, properties and applications of ferroelectrics and related materials, such as, piezoelectric and pyroelectric materials. Representative ferroelectric materials include BaTiO3, Pb(Ti,Zr)O3, PbTiO3, LiNbO3, KNbO3, LiTaO3, and Pb(ZnNb)O3. Generally, these materials have a high dielectric constant and are characterized by large piezoelectric, pyroelectric and electrooptic effects as well as nonlinear optical effects. On the basis of these unique properties, ferroelectric materials have been applied to produce active elements of various devices.
Volume 2 contains papers on sol-gel processing of titanium oxides for photocatalyst and other recent applications. Titanium dioxide, TiO2, is both an old and new material with a variety of interesting functions. Conventionally, TiO2 was used mainly as light-scattering particles in porcelain enamel, ceramic glaze, white points and the suspension-type eraser. A more recent application of similar nature is the incorporation of TiO2 into UV- shielding cosmetics, which protect human skin from UV damage. TiO2 is also employed as nucleating agent for crystallization of glass, providing glass-ceramics.
Papers on sol-gel prepared organic-inorganic hybrids and nanocomposites are compiled in Volume 3. Typical organic-inorganic hybrids have a microstructure in which inorganic species like -Si-O-Ti-O- are combined with organic polymers like polymethylmethacrylate chains at the molecular level.
Volume 4 compiles papers on the gel as porous material. Porous gels with nano-size pores and micron-size pores are applied to formation of catalysts, enzymes, chemical analysis, sensors and membranes. Pore surfaces are significant because they serve as the absorption and reaction site for catalysts, enzymes, chemical reaction, and sensing molecules or atoms.
Cuprins
Volume 1: Sol Gel Prepared Ferroelectrics and Related Materials. Part I: Barium Titanates and Related Materials. Part II: Lead Zirconate-titanates and Related Materials. Part III: Strontium Barium Niobates and Related Materials. Part IV: Strontium Bismuth Tantalates. Part V: Other Materials.
Volume 2: Sol-Gel Processing of Titanium Oxides: Photocatalyst and Other Applications. Part I: Photocatalysts. Part II: Solar Cells. Part III: Miscellaneous Application. Part IV: Preparation Structure and Properties.
Volume 3: Sol-Gel Prepared Organic-Inorganic Hybrids and Nanocomposites. Part I: Optical Materials with Applications to Waveguides, Microstructure, Gratings. Part II: Photonic Materials for Lasers, Luminescence, Nonlinear Optical Effects. Part III: Mechanically Strong Organic-Inorganic Hybrids. Part IV: Materials for Catalysts, Sensors and Chemical Applications. Part V: Organic-Inorganic Hybrids as Biomaterials. Part VI: Studies on Preparation, Structure, and Properties of Organic-Inorganic Hybrids.
Volume 4: Sol Gel Processing of Porous Materials: Applications to Catalysts, Enzymes, Chemical Analysis, Sensors, and Membranes. Part I: Porous Materials with Pores Controlled by Phase Separation and Self-Organization. Part II: Membranes, Filters and Molecular Sieves. Part III: Catalysts and Catalyst Supports. Part IV: Optical Chemical Sensors and other Sensors. Part V: Biosensors and Enzyme Support. Part VI: Characterization of Pores and Pore Surfaces in Porous Gels. Index.
Volume 2: Sol-Gel Processing of Titanium Oxides: Photocatalyst and Other Applications. Part I: Photocatalysts. Part II: Solar Cells. Part III: Miscellaneous Application. Part IV: Preparation Structure and Properties.
Volume 3: Sol-Gel Prepared Organic-Inorganic Hybrids and Nanocomposites. Part I: Optical Materials with Applications to Waveguides, Microstructure, Gratings. Part II: Photonic Materials for Lasers, Luminescence, Nonlinear Optical Effects. Part III: Mechanically Strong Organic-Inorganic Hybrids. Part IV: Materials for Catalysts, Sensors and Chemical Applications. Part V: Organic-Inorganic Hybrids as Biomaterials. Part VI: Studies on Preparation, Structure, and Properties of Organic-Inorganic Hybrids.
Volume 4: Sol Gel Processing of Porous Materials: Applications to Catalysts, Enzymes, Chemical Analysis, Sensors, and Membranes. Part I: Porous Materials with Pores Controlled by Phase Separation and Self-Organization. Part II: Membranes, Filters and Molecular Sieves. Part III: Catalysts and Catalyst Supports. Part IV: Optical Chemical Sensors and other Sensors. Part V: Biosensors and Enzyme Support. Part VI: Characterization of Pores and Pore Surfaces in Porous Gels. Index.
Caracteristici
Includes supplementary material: sn.pub/extras