All Outputs (3)

Electrical and optical properties of a polymer semiconductor interface (1999)
Journal Article
Halliday, D., Gray, J., Adams, P., & Monkman, A. (1999). Electrical and optical properties of a polymer semiconductor interface. Synthetic Metals, 102(1-3), 877-878

We have fabricated a stable electrical interface between a range of n-type, p-type and undoped GaAs epitaxial layers and a film of conductive p-type polyaniline. The IV characteristics of this device show rectifying behaviour consistent with a potent... Read More about Electrical and optical properties of a polymer semiconductor interface.

Visible electroluminescence from a polyaniline-porous silicon junction (1997)
Journal Article
Halliday, D., Eggleston, J., Adams, P., Pentland, I., & Monkman, A. (1997). Visible electroluminescence from a polyaniline-porous silicon junction. Synthetic Metals, 85(1-3), 1245-1246

We have studied the interface formed between a p-type conducting polyaniline layer and an n-type porous silicon wafer, The contact has rectifying behaviour demonstrated clearly by the IV curves, We can fit our data to a simple Schottky barrier model.... Read More about Visible electroluminescence from a polyaniline-porous silicon junction.

Electroluminescence from porous silicon using a conducting polyaniline contact (1996)
Journal Article
Halliday, D., Holland, E., Eggleston, J., Adams, P., Cox, S., & Monkman, A. (1996). Electroluminescence from porous silicon using a conducting polyaniline contact. Thin Solid Films, 276(1-2), 299-302. https://doi.org/10.1016/0040-6090%2895%2908102-x

We have fabricated a p-n junction using a p-type conducting polyaniline layer deposited on an n-type porous silicon layer. This junction shows rectifying behaviour. The I–V curves can be fitted to a Schottky barrier model with a barrier height of 0.8... Read More about Electroluminescence from porous silicon using a conducting polyaniline contact.