Polymers for Organic Electronics

## Abstract Light‐induced changes of the properties of materials are of major imprtance in electronics. This will be illustrated by examples showing the photoresists presently used to produce submicron structures, phot‐patternable insulating materials, and UV‐curable reactive resins.

Organic-and polymer-transistor-based circuits are being investigated for a number of low-cost, large-area applications, particularly those that are compatible with flexible plastic circuits 1-12 . The organic materials that have been used as active semiconductor materials include both sublimed and s

## Abstract A new class of hole‐transporting polymers for use in organic electronic devices such as organic light‐emitting diodes (OLEDs) or photorefractive holographic storage devices has been synthesized. The polymers contain tetraarylbenzidines or tetraarylphenylenediamines as charge‐transportin

## Abstract The field of organic electronics has been developed vastly in the past two decades due to its promise for low cost, lightweight, mechanical flexibility, versatility of chemical design and synthesis, and ease of processing. The performance and lifetime of these devices, such as organic l