Multilayer self-assembled films, consisting of partially doped polyaniline (PAN) as a polycation and water-soluble poly(4-carboxyphenyl)acetylene (PCPA) as a polyanion, were fabricated through electrostatic attraction. These ultrathin PCPA/PAN films were relatively stable toward aqueous electrolyte solutions and polar organic solvents, and the photoelectric conversion properties of the self-assembled PCPA/PAN films could be measured with traditional three-electrode cells in 0.5 M KCl aqueous solutions. With an increase in the bilayer number, the photocurrent rose, and it reached its maximum at eight bilayers. A further increase led to a current drop due to an increase in the recombination probability and weak visible-light transmission. When neutral PAN films were used, the photocurrent increased consecutively within 15 bilayers, and this indicated that the PAN molecules in the neutral state were stronger electron donors than those in the partially doped state. (C) 2004 Wiley Periodicals, Inc.