Due to their use and importance in many fields, a great deal of research focuses on developing inorganic materials. For example, a computer contains many types of inorganic materials, including the glass in the display or a layer of the LCD screen, the metal wires, and semiconductor materials in the chips and other electronic components. Computers can even be powered by solar cells, which also include inorganic materials. Zeolites also belong to this class and are found in applications ranging from catalysts to cat litter.
This third edition of the popular textbook contains 30% new and/or revised content to reflect the latest developments in this fast developing field. Written from the chemist′s point of view, the well–known and experienced authors provide a thorough and pedagogical introduction, now including example real–life applications of the syntheses, as well as new sections on nanomaterials, templating methods and biomineralization.
A valuable resource for advanced undergraduates as well as masters and graduate students in inorganic chemistry and materials science.
This third edition of the popular textbook contains 30% new and/or revised content to reflect the latest developments in this fast developing field. Written from the chemist′s point of view, the well–known and experienced authors provide a thorough and pedagogical introduction, now including example real–life applications of the syntheses, as well as new sections on nanomaterials, templating methods and biomineralization.
A valuable resource for advanced undergraduates as well as masters and graduate students in inorganic chemistry and materials science.
Note: Product cover images may vary from those shown
INTRODUCTION
SOLID–STATE REACTIONS
Reactions Between Solid Compounds
Solid –Gas Reactions
Intercalation Reactions
FORMATION OF SOLIDS FROM THE GAS PHASE
Chemical Vapor Transport
Chemical Vapor Deposition
Aerosol Processes
FORMATION OF SOLIDS FROM SOLUTIONS AND MELTS
Glass
Precipitation
Biomaterials
Solvothermal Processes
Sol–Gel Processes
PREPARATION AND MODIFICATION OF INORGANIC POLYMERS
General Aspects
Polysiloxanes (Silicones)
Polyphosphazenes
Polysilanes
Polycarbosilanes
Polysilazanes and Polycarbosilazanes
Other Inorganic Polymers
Metal–Containing Polymers
TEMPLATING METHODS
Introduction to Porosity and High Surface Area Materials
Metallic Foams and Porous Materials
Soft Templates/Endotemplating
Hard Templates/Exotemplating
Templating Towards Multiscale Porosity
Incorporation of Functional Groups into Porous Materials
NANOSTRUCTURED MATERIALS
The Origin of Nanoeffects
Properties of Nanomaterials
Synthesis of Nanoparticles
One–Dimensional Nanostructures
Nanometer–Scale Layers
GLOSSARY
INDEX
SOLID–STATE REACTIONS
Reactions Between Solid Compounds
Solid –Gas Reactions
Intercalation Reactions
FORMATION OF SOLIDS FROM THE GAS PHASE
Chemical Vapor Transport
Chemical Vapor Deposition
Aerosol Processes
FORMATION OF SOLIDS FROM SOLUTIONS AND MELTS
Glass
Precipitation
Biomaterials
Solvothermal Processes
Sol–Gel Processes
PREPARATION AND MODIFICATION OF INORGANIC POLYMERS
General Aspects
Polysiloxanes (Silicones)
Polyphosphazenes
Polysilanes
Polycarbosilanes
Polysilazanes and Polycarbosilazanes
Other Inorganic Polymers
Metal–Containing Polymers
TEMPLATING METHODS
Introduction to Porosity and High Surface Area Materials
Metallic Foams and Porous Materials
Soft Templates/Endotemplating
Hard Templates/Exotemplating
Templating Towards Multiscale Porosity
Incorporation of Functional Groups into Porous Materials
NANOSTRUCTURED MATERIALS
The Origin of Nanoeffects
Properties of Nanomaterials
Synthesis of Nanoparticles
One–Dimensional Nanostructures
Nanometer–Scale Layers
GLOSSARY
INDEX
Note: Product cover images may vary from those shown
Ulrich Schubert
Nicola Hüsing
Nicola Hüsing
Note: Product cover images may vary from those shown
