Charge Transport in Disordered Solids with Applications in Electronics
This text aims to cover conduction in disordered solids from fundamental physical principles and theories, through practical material development with an emphasis on applications in all areas of electronic materials.
- International group of contributors
- Presents basic physical concepts developed in this field in recent years in a uniform manner
- Brings up-to-date, in a one-stop source, a key evolving area in the field of electronic materials
1. “Charge Transport via Delocalized States in Disordered Materials” (Igor P. Zvyagin).
2. “Description of Charge Transport in Amorphous Semiconductors” (S. D. Baranovskii and O. Rubel).
3. “Hydrogenated Amorphous Silicon – Material Properties and Device Applications” (W. Fuhs).
4. “Applications of Disordered Semiconductors in Modern Electronics: Selected Examples” (Safa Kasap, J.A. Rowlands, Kenkichi Tanioka, Arokia Nathan).
5. “The investigation of charge carrier recombination and hopping transport with pulsed electrically detected magnetic resonance techniques” (Ch. Böhme and K. Lips).
6. “Description of Charge Transport in Disordered Organic Materials” (S. D. Baranovskii and O. Rubel).
7. “Device applications of organic materials” (Elizabeth von Hauff, Carsten Deibel and Vladimir Dyakonov).
8. “Generation, Recombination and Transport of Non-Equilibrium Carriers in Polymer-Semiconductor Nanocomposites” (H. E. Ruda and A. Shik).
9. “AC Hopping Transport in Disordered Materials” (Igor P. Zvyagin).
10. “Mechanisms of Ion Transport in Amorphous and Nanostructured Materials” (Bernhard Roling).
11. “Applications of Ion Transport in Disordered Solids. Electrochemical
Micro-ionics” (Philippe Vinatier and Yohann Hamon).
12. "DNA Conduction: the Issue of Static Disorder, Dynamic Fluctuations and Environmental Effects" (Rafael Gutierrez, Danny Porath, Gianaurelio Cuniberti).