Physical chemistry of ionic materials: ions and electrons in solids
Maier, Joachim
Physical chemistry of ionic materials: ions and electrons in solids - 2nd ed. - Hoboken, New Jersey: Wiley, 2023. - xii, 564p.: ill.; hbk.: 26cm.
Include Bibliographical References and Index
Ionic and electronic charge carriers are critical to the kinetic and electrochemical properties of ionic solids. These charge carriers are point defects and are decisive for electrical conductivity, mass transport, and storage phenomena. Generally, defects are deviations from the perfect structure, and if higher-dimensional, also crucial for the mechanical properties. The study of materials science and energy research therefore requires a thorough understanding of defects, in particular the charged point defects, their mobilities, and formation mechanisms.
Physical Chemistry of Ionic Materials is a comprehensive introduction to these charge carrier particles and the processes that produce, move, and activate them. Covering both core principles and practical applications, it discusses subjects ranging from chemical bonding and thermodynamics to solid-state kinetics and electrochemical techniques. Now in an updated edition with numerous added features, it promises to be the essential textbook on this subject for a new generation of materials scientists.
https://www.wiley.com/en-us/Physical+Chemistry+of+Ionic+Materials%3A+Ions+and+Electrons+in+Solids%2C+2nd+Edition-p-9781119799108#description-section
9781119799108
Solid-State Physical Chemistry
Ionic Conductivity in Solids
Electronic Structure of Ionic Materials
Defect Chemistry of Crystalline Solids
Electrochemical Properties of Solid Electrolytes
Chemical Bonding
Thermodynamics
Solid-State Kinetics
Electrochemical Techniques
541.042 MAI
Physical chemistry of ionic materials: ions and electrons in solids - 2nd ed. - Hoboken, New Jersey: Wiley, 2023. - xii, 564p.: ill.; hbk.: 26cm.
Include Bibliographical References and Index
Ionic and electronic charge carriers are critical to the kinetic and electrochemical properties of ionic solids. These charge carriers are point defects and are decisive for electrical conductivity, mass transport, and storage phenomena. Generally, defects are deviations from the perfect structure, and if higher-dimensional, also crucial for the mechanical properties. The study of materials science and energy research therefore requires a thorough understanding of defects, in particular the charged point defects, their mobilities, and formation mechanisms.
Physical Chemistry of Ionic Materials is a comprehensive introduction to these charge carrier particles and the processes that produce, move, and activate them. Covering both core principles and practical applications, it discusses subjects ranging from chemical bonding and thermodynamics to solid-state kinetics and electrochemical techniques. Now in an updated edition with numerous added features, it promises to be the essential textbook on this subject for a new generation of materials scientists.
https://www.wiley.com/en-us/Physical+Chemistry+of+Ionic+Materials%3A+Ions+and+Electrons+in+Solids%2C+2nd+Edition-p-9781119799108#description-section
9781119799108
Solid-State Physical Chemistry
Ionic Conductivity in Solids
Electronic Structure of Ionic Materials
Defect Chemistry of Crystalline Solids
Electrochemical Properties of Solid Electrolytes
Chemical Bonding
Thermodynamics
Solid-State Kinetics
Electrochemical Techniques
541.042 MAI
