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   Solo testo/Text only

Introduction to organic semiconductors and applications

   

Prof. Franco Cacialli
Department of Physics and Astronomy and London Centre for Nanotechnology, University College London, London, U.K.

20 hours, 5 credits (final test)

May 14 - May 18, 2007
Dipartimento di Ingegneria dell'Informazione: Elettronica, Informatica, Telecomunicazioni, via Caruso 16, meeting room, ground floor

Contacts: Prof. Andrea Nannini

   

Syllabus

Introduction

  • Inorganic semiconductors
  • Organic semiconductors
  • Π-orbitals and conjugation
  • Excitations: excitons and polarons
  • Exciton spin: singlets and triplets
  • Synopsis electronic and optical processes
  • Optical properties: a few examples
    Energy gap vs. molecular weight; electron-phonon coupling: vibrational structure and thermochromism; Förster transfer and site selective spectroscopy
  • Summary of optical properties

Polymer-based light-emitting diodes (LEDs)

  • Structure
  • Fundamental processes
  • Charge injection
  • Charge transport
  • Exciton formation
    Mutual capture; Exciton characteristics (binding energy, spin-multiplicity, capture cross-section
  • Exciton decay
    Radiative and non-radiative decay; Exciton lifetime; Efficiency
  • Characterisation of PLEDs
  • Relevant performance parameters
  • Characterising metal-semiconductor contacts: electroabsorption measurements as a non-invasive tool for the study of the energy level line up in finished devices
  • Practical implementations
  • Anodes
  • Cathodes
  • Active materials
    Singlet emitters; Triplet emitters - enhanced spin-orbit coupling via doping with rare-earth ligands; Blends: trying to achieve the best of all worlds; Prototypical materials for red, green and blue emission (singlet emitters)
  • Fabrication technology: the advantage of solution processability
    Spin-coating; Ink-jet printing (IJP); Screen-printing and other examples
  • State of the art devices and future prospects

Polymer-based photovoltaic diodes (PVDs)

  • Fundamental process
  • Exciton absorption
  • Exciton dissociation
  • Charge collection
  • Characterisation of PVDs
  • Relevant performance parameters
  • Most important examples of polymer-based PVDs
  • Polymer-polymer heterojunctions
    Enhanced dissociation at type II heterojunctions; Preparation methods: polymer blends and spontaneous phase separation
  • C60-polymer structures
  • Heterojunctions with nanocrystals, nanorods, etc.
  • State of the art devices and future prospects

Polymer-based field-effect transistors (FETs)

  • Structure
  • Fundamental processes
  • Channel formation
  • Charge transport
  • Characterisation
  • Relevant performance parameters
  • Examples of successful strategies
  • State of the art devices and future prospects