MicroController Pros Home Page
My Account  Cart Contents  Checkout  
  Store » ELV9780127521909 My Account  |  Cart Contents  |  Checkout   
Quick Find
Enter keywords to find the product you are looking for in the Quick Find field above

or use
Advanced Search
Accessory Boards->
ADI Blackfin
Atmel AVR->
Cypress PSoC
Microchip PIC->
Silicon Labs
ST Microelectronics->
Texas Instruments->
Embedded Ethernet->
Embedded Software->
I/O Modules->
Parts & Components->
Pick & Place Tools
Programmable Logic (PLD)
Prototype PCBs->
ROM/Flash Emulators
Test & Measurement->
Tutorial Software
Universal Programmers->
Intro to Embedded Tools
Embedded News Digest
Useful Resources
Shipping & Returns
Warranty & Liability
Privacy Notice
Conditions of Use
Contact Us
Conducting Organic Materials and Devices Volume 81 US$215.00

Conducting Organic Materials and Devices Volume 81

Conducting Organic Materials and Devices Volume 81 Description

Conducting polymers were discovered in 1970s in Japan. Since this discovery, there has been a steady flow of new ideas, new understanding, new conducing polymer (organics) structures and devices with enhanced performance. Several breakthroughs have been made in the design and fabrication technology of the organic devices. Almost all properties, mechanical, electrical, and optical, are important in organics. This book describes the recent advances in these organic materials and devices.

  • 198 pages

  • Trim size 6 1/2 X 9 7/16 in

  • Copyright 2007

Conducting Organic Materials and Devices Volume 81 Readership

Students, researchers and engineers in material science, polymers, and semiconductors


Conducting Organic Materials and Devices Volume 81 Contents

Preface 1 Introduction

1.1 Advantages of conducting polymers

1.2 Early attempts for applications

1.3 Growth and properties

1.4 Active Devices

2 Polyacetylene

2.1 Structure, Growth, and properties

2.1.1 Structure

2.1.2 Growth and doping of Polyacetylene

2.2 Band-structure of t-PA

2.3 The solitons and the polarons

2.3.1 The solitons

2.3.2 The polarons

2.4 Transport properties

2.4.1 Mobility in selected polymers

2.4.2 Conductivity and susceptibility

3 Optical and Transport Properties

3.1 Effect of electric field on photoluminescence(PL)

3.2 The dielectric constant

3.3 Space Charge Limited Currents

3.3.1 Early work of Mott. The Poisson and continuity equations in a trap-free insulator

3.3.2 Effect of background doping

3.4 Polymers: The solids with traps

3.4.1 Poisson equation with trapped charges

3.4.2 Single level traps

3.4.3 Gaussianly distributed traps

3.5 Exponential traps

3.5.1 Calculation of J(V)

3.6 Relaxation of the approximation pt Ā p

3.6.1 J V curves when pt 6Ā p

3.6.2 Trap-filled limit

3.7 Effect of finite (non-zero) Schottky barrier

3.7.1 Importance of finite barriers

3.7.2 Theory

3.7.3 Results and discussion

3.7.4 Comparison with experiment

3.8 Combined effect

3.9 Temperature effects

3.9.1 Temperature effects in PPV-based polymers

3.9.2 Recent work

3.9.3 Temperature effects in MEH-PPV. Recent work

3.9.4 Temperature Effects in Alq3

3.10 The mobility model of charge transport

3.11 The unified model

3.11.1 Shallow Gaussian and single level traps

3.11.2 Unified model with exponentially distributed traps

3.12 High field or Pool-Frankel Effect

3.12.1 J V characteristics

3.12.2 Calculations and comparison with experiments

3.13 Mobility of charge carriers

3.13.1 Bulk materials

3.13.2 Mobility in blends

3.14 Important formulas

3.15 Summary of this

Chapter 4 Light Emitting Diodes and Lasers

4.1 Early work

4.2 Blue, green and white emission

4.2.1 Blue and green LEDs

4.2.2 White light emission from Organic LEDs

4.3 Comparison with other LEDs

4.4 Organic solid-state lasers

4.4.1 Photo pumped lasers

4.4.2 Spectral Narrowing

4.4.3 Blue Lasers

4.5 Quantum efficiency and degradation

4.6 Stability

4.6.1 Degradation of the polymer

4.6.2 The cathode and the black spots

4.6.3 Degradation of the anode

4.7 Soluble new 5-coordinated Al-complexes

4.8 Summary and conclusions

5 Solar cells

5.1 Introduction

5.2 Solar Cells

5.2.1 Single and bilayer solar cells

5.2.2 Interpenetrating network of donor-acceptor organics. Bulk Heterojunction Solar Cells

5.3 Source of VOC in BHSCs

5.3.1 Effect of acceptor strength

5.3.2 More recent work

5.4 Optimum PCBM concentration

5.4.1 Superposition principle

5.5 Modeling the output characteristics

5.5.1 The output currents

5.5.2 The model

5.6 Comparison with other solar cells

5.6.1 Amorphous-Si solar cells

5.6.2 Polycrystalline Si solar cells

5.7 Summary and Conclusions

6 Transistors

6.1 Importance of organic TFTs

6.2 Early work

6.3 Effect of traps

6.4 High field effects

6.5 Transport in polycrystalline organics

6.5.1 Effect of grain boundaries

6.6 Pentacene TFTs

6.7 Contacts

6.8 Organic Photo-transistor

6.9 Organic dielectrics Bibliography



Conducting Organic Materials and Devices Volume 81 Author Information

By Suresh C. Jain, National Physical Laboratory, New Delhi, India; M. Willander, Göteborg University and Linköping University; and V. Kumar, National Physical Laboratory, New Delhi, India

This product was added to our catalog on Tuesday 30 December, 2008.


Shopping Cart more
0 items
What's New? more
Flowcode 7 for PIC, AVR, Arduino, ARM - Pro 2 User
Flowcode 7 for PIC, AVR, Arduino, ARM - Pro 2 User
Specials more
48 TSOP to DIP Programming Adapter
48 TSOP to DIP Programming Adapter
Tell A Friend

Tell someone you know about this product.
Notifications more
NotificationsNotify me of updates to Conducting Organic Materials and Devices Volume 81
Reviews more
Write ReviewWrite a review on this product!
  Sunday 20 August, 2017   List of all our Products

Copyright © 2003-2017 MicroController Pros LLC
Powered by osCommerce