Electrically re-writable non-volatile memory device - using a blend of sea salt and polymer.

Date

2008

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Peer reviewed

Abstract

Intensive research is currently underway to exploit the highly interesting properties of nano-sized particles and organic molecules for optical, electronic and other applications. Recently, it has been shown that nano-sized particles and small organic molecules embedded in polymer matrices can be used to realise memory devices. Such memory devices are simple to fabricate via the spin-on technique. This work presents an attempt to use sea salt, embedded in polyvinyl acetate, in the making of the memory devices. A polymer blend of polyvinyl acetate and sodium chloride (NaCl) was prepared in methanol and spin coated onto a glass substrate marked with thin Al tracks and a top contact was evaporated onto the blend after drying - this resulted in a metal-organic-metal (MOM) structure. The current-voltage (I-V) behaviour of MOM devices shows that the devices can be switched from a high conductivity state to a low conductivity state, by applying an external electric field - this property can be exploited to store data bits. The possible charging mechanism, based on the electric dipole formation, is presented in this work. Polymer blends of polyvinyl acetate with nano-particles of BaTiO3 are also investigated to further our understanding of charging mechanism(s).

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Keywords

switching mechanism, polyvinyl acetate, NaCl, Barium titanate, organic

Citation

Salaoru, I. and Paul, S. (2008) Electrically re-writable non-volatile memory device - using a blend of sea salt and polymer. Advances in Science and Technology, 54, pp. 486-490

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Research Institute

Institute of Engineering Sciences (IES)