Chapter 10. Mechanisms of Ion Transport in Amorphous and Nanostructured Materials

  1. Sergei Baranovski Faculty
  1. Bernhard Roling

Published Online: 7 NOV 2006

DOI: 10.1002/0470095067.ch10

Charge Transport in Disordered Solids with Applications in Electronics

Charge Transport in Disordered Solids with Applications in Electronics

How to Cite

Roling, B. (2006) Mechanisms of Ion Transport in Amorphous and Nanostructured Materials, in Charge Transport in Disordered Solids with Applications in Electronics (ed S. Baranovski), John Wiley & Sons, Ltd, Chichester, UK. doi: 10.1002/0470095067.ch10

Editor Information

  1. Physics and Material Sciences Center, Philipps University Marburg, Germany

Author Information

  1. Fachbereich Chemie, Philipps-Universität Marburg, Hans-Meerwein-Str., Marburg, Germany

Publication History

  1. Published Online: 7 NOV 2006
  2. Published Print: 11 AUG 2006

Book Series:

  1. Wiley Series in Materials for Electronic and Optoelectronic Applications

Book Series Editors:

  1. Dr Peter Capper3,
  2. Professor Safa Kasap4 and
  3. Professor Arthur Willoughby5

Series Editor Information

  1. 3

    SELEX Sensors and Airborne Systems Infrared Ltd, Southampton, UK

  2. 4

    University of Saskatchewan, Saskatoon, SK, S7N 5A9, Canada

  3. 5

    University of Southampton, Southampton, UK

ISBN Information

Print ISBN: 9780470095041

Online ISBN: 9780470095065

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Keywords:

  • amorphous material ion transport;
  • amorphous polymer electrolytes;
  • ion and polymer chain dynamics;
  • Vogel–Fulcher–Tammann-type temperature dependence;
  • gel electrolyte in battery application;
  • salt-in-polymer electrolyte;
  • PolyMOB electrolytes;
  • nanocomposite and nanogel electrolytes;
  • nano- and mesostructured glass ceramics

Summary

This chapter contains sections titled:

  • Introduction

  • Prerequisites for Ionic Conduction in Solids

  • Glasses

  • Amorphous Polymer Electrolytes

  • Nanocrystalline Materials and Composites

  • Heterostructures

  • Nano- and Mesostructured Glass Ceramics

  • Nanocomposite and Nanogel Electrolytes

  • Hybrid Electrolytes

  • Summary and Conclusions

  • References