Tuyển tập các báo cáo nghiên cứu khoa học trên tạp chí khoa học vật lý quốc tế đề tài: Electrical Conductivity of Chlorophyll with Polythiophene Thin Film on Indium Tin Oxide as P-N Heterojunction Solar Cell | Journal of Physical Science Vol. 19 2 77-92 2008 77 Electrical Conductivity of Chlorophyll with Polythiophene Thin Film on Indium Tin Oxide as P-N Heterojunction Solar Cell S. Hasiah1 K. Ibrahim3 . Senin1 and . Halim2 Department of Physical Sciences Faculty of Science and Technology 2Department of Chemical Sciences Faculty of Science and Technology Universiti Malaysia Terengganu 21030 Kuala Terengganu Terengganu Malaysia 3School of Physics Universiti Sains Malaysia 11800 USM Pulau Pinang Malaysia Corresponding author hasiah@ Abstract This work was focused on the study of electrical conductivity to the combination of Polythiophene PT thin film and Chlorophyll CHLO thin film by layered on Indium Tin Oxide ITO substrate as p-n heterojunction solar cell. PT thin film is deposited to the ITO substrate by using electrochemistry method. CHLO thin film is coated on PT thin film by using the spin coating method. Current and voltage of ITO PT CHLO thin film are measured in the dark and under different light intensity by using the four point probes. The results showed that PT thin film was successfully coated with CHLO on ITO substrate with different thicknesses. Electrical conductivity in the dark showed an increasing with the increasing of PT thin film thickness. While with the increasing of CHLO thin film thickness electrical conductivity in the dark is consecutively changed. Electrical conductivity under different intensity of light increased with the increasing of light intensity. Electrical conductivity under intensity of light are diminished with the increasing of PT thin film thickness while electrical conductivity is increased with the increasing of the light intensity and the increasing of CHLO thin film thickness. In conclusion combination of the thinnest PT with the thickest CHLO thin film produced the highest electrical conductivity reach up to Sm 1 raise 22 under illumination compared to the electrical conductivity in the dark condition . .