Porous glass and nanostructured materials /

This book examines and systematizes knowledge concerning porous glass materials. Different volumes of pores and the methods of directly synthesizing the glass with predefined sizes are discussed as well. Likewise, the primary approaches on determining parameters of porous structures are a topic of i...

Ful tanımlama

Detaylı Bibliyografya
Diğer Yazarlar: Pak, Vyacheslav N., Gavronskaya, Yulia Yu, Burkat, Tamara M.
Materyal Türü: e-Kitap
Dil:İngilizce
Baskı/Yayın Bilgisi: New York : Nova Publishers, [2015]
Seri Bilgileri:Materials science and technologies series.
Konular:
Porous silicon.
Soluble glass.
Glass > Microstructure.
Glass manufacture.
Chemical structure.
TECHNOLOGY & ENGINEERING / Engineering (General)
TECHNOLOGY & ENGINEERING / Reference
Electronic books.
Online Erişim:Full-text access
İçindekiler:
  • POROUS GLASS AND NANOSTRUCTURED MATERIALS; POROUS GLASS AND NANOSTRUCTURED MATERIALS; Library of Congress Cataloging-in-Publication Data; Contents; Preface; Introduction; Chapter 1: Synthesis of Porous Glass; 1.1. Precursor Glass for PG Synthesis; 1.1.1. Glass; 1.1.2. Segregation Processes in Glass; 1.1.3. Effect of Annealing on the Size of Bordering Phases in Segregating SBS Systems and on the Structure of the Resulting PG; 1.2. Acid Treatment (Leaching) and Its Effect on the Structure of PG; 1.3. Alkali Etching and Its Effect on PG Structure.
  • Chapter 2: Practical Guidelines for Synthesis of PG with Predetermined Porous Structure2.1. Determination of Process Parameters for Synthesis of PG with Pre-defined Porous Structure; 2.2. Annealing of the Precursor SBS Glass; 2.3. Machining of the Glass Plates and Preparation for Leaching; 2.4. Leaching; 2.5. Drying and Storage of Porous Samples; 2.6. Alkaline Etching of PG Plates; Chapter 3: Methods for Determination of Parameters of Porous Structure; 3.1. Determination of Specific Porosity, Pore Volume and Matrix Density.
  • 3.2. Controlled Manipulation of Volume Porosity of PG Plates in the Process of Alkaline Etching3.3. Determination of Pore Radius in PG; 3.4. Determination of Specific Surface Area; Chapter 4: Properties of Porous Glass and PG-Based Materials; 4.1. Optical Materials; 4.1.1. Photochromic Properties of PG Containing Molybdenum; 4.1.2. Optical Properties of PG Modified with Vanadium Oxide; 4.1.3. Luminescence of Terbium(III) Chloride in PG; 4.1.4. Sensitization of Luminescence of Europium(III) with Titanium Oxide Containing Nanoparticles in Porous Glass.
  • 4.2. Solid Electrolytes Based on Porous Glass4.2.1. Electrical Conductivity of Porous Glasse Saturated with Sulfuric Acid Solutions; 4.2.2. Electrical Conductivity of Orthophosphoric Acid in Porous Glass; 4.2.3. Porous Glass Modified with Ammonium Dihydrophosphate; 4.2.4. Proton Conductivity of the CsH2PO4/PG System; 4.3. Diffusive Mass Transport in Porous Glass Membranes; 4.3.1. Kinetic and Dimensional Aspects of Diffusion in Porous Glass; 4.3.2. Diffusion Mobility of Alkali Metal Ions; 4.3.3. Diffusive Transport of Potassium Dichromate; Conclusion; Acknowledgments; References.

Benzer Materyaller