Dominic Prime scite author profile

Organic and polymer based electronic devices are currently the subject of a great deal of scientific investigation and development. This interest can be attributed to the low cost, easy processing steps and simple device structures of organic electronics when compared to conventional silicon and inorganic electronics. In the field of organic electronic memories, non-volatile, rewritable polymer memory devices (PMDs) have shown promise as a future technology where cost and compatibility with flexible substrates are important factors. In this paper PMDs based on active layers containing an admixture of polystyrene, gold nanoparticles and 8-hydroxyquinoline will be presented, showing the devices’ electrical characteristics and memory performance attributes, and where possible discussing possible mechanisms of operation.

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Making Plastic Remember: Electrically Rewritable Polymer Memory Devices

Prime

Paul

2007

MRS Proc.

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Organic based electronic memory devices are currently receiving an unprecedented amount attention as possible alternatives for conventional semiconductor memories, due to their simple device structures, ease of fabrication, compatibility with flexible substrates and low cost. Polymer memory devices (PMDs) based on active layers containing gold nanoparticles (Q-Au) with 8-hydroxyquinoline (8HQ) will be presented in this report. Memory performance attributes will also be presented, which are less reported in the literature, but still essential for the realisation of viable organic memory technologies.

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Dominic Prime

Effect of processing variables and bulk composition on the surface composition of spray dried powders of a model food system

Electrical and morphological properties of polystyrene thin films for organic electronic applications

First contact-charging of gold nanoparticles by electrostatic force microscopy

Gold Nanoparticle Based Electrically Rewritable Polymer Memory Devices

Making Plastic Remember: Electrically Rewritable Polymer Memory Devices

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