Surface Science of Intercalation Materials and Solid Electrolytes, 1st ed. 2020 A View on Electron and Ion Transfer at Li-ion Electrodes Based on Energy Level Concepts SpringerBriefs in Physics Series
Auteur : Hausbrand René
This book shares essential insights into the formation and properties of ionic interfaces based on the energy level structures of their interfaces obtained using a surface science approach. It covers both interfaces with liquid and solid electrolyte contacts, and includes different material classes, such as oxides and phosphates. The specific material properties result in particular effects observed at interfaces, which are often not yet, or not sufficiently, taken into account in battery development and technologies.
Discussing fundamental issues concerning the properties of intercalation electrodes and electrode?solid electrolyte interfaces, the book investigates the factors that determine voltage, kinetics and reactivity. It presents experimental results on interface formation, and relates them to electron and ion energy levels in the materials and at their interfaces. It explores these topics integrating electrochemistry, solid-state ionics and semiconductor physics, and accordingly will appeal not only to battery scientists, but also to a broader scientific community, including material scientists and electrochemists.
Explores the surfaces of Li-ion intercalation cathode materials and their interfaces with solid and liquid electrolytes using a surface science approach
Discusses the application of thin-film technology and molecular adsorption in order to analyze Li-ion electrode interfaces
Provides research results on intercalation electrodes and electrode–solid electrolyte interfaces that can improve the efficiency of batteries
Date de parution : 07-2020
Ouvrage de 103 p.
15.5x23.5 cm
Disponible chez l'éditeur (délai d'approvisionnement : 15 jours).
Prix indicatif 52,74 €
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Mots-clés :
Cathode–Electrolyte Interface; Electrochemical Stability; Lithium Intercalation Electrodes; Artificial Solid Electrolyte Interphase; Solid Electrolyte Interphase (SEI); Solid State Batteries; Energy Level Diagram; Chemisorption and Photoelectron Core Level Spectra; Electromobility; Electrolyte Interface; Space Charge Layer Formation