In this work, we have exploited the redox property of polyaniline(PANI) to reduce silver ion to metallic silver, whose morphology is investigated in various experiments. First, we have prepared 3 kinds of PANI with different morphologies, i.e. nanofiber(F), nanogranule(G) and nanoplate(P). Not only morphology but also the chemical structure of PANI is found to pose influence on the metal morphology after the reaction between PANI and silver nitrate. Blending poly(4-styrene sulfonic acid)(PSSA) with PANI leads to adsorption of polyelectrolyte onto PANI surface, altering the environment for metal growth, thus changing its crystallographic structure. Addition of reducing agent does not induce synergistic effect with PANI concerning the provision of reducing electrons. The respective influence is noticed by observing metal morphology. PANI－PSSA colloidal solution is prepared and reacted with silver nitrate. PANI and PSSA are believed to be homogeneously mixed based on the distribution of the resulting metal nanoparticles within polymer matrix. The size of metal is increased by aggregation of individual nanoparticles, meanwhile, the crystallographic orientation is adjusted to develop a structure with higher crystallographic coherency.