In this paper, polyaniline was synthesized using cyclic voltammetry in a potential range between −0.20 and 1.10V (vs. SCE), in a solution consisting of 0.20M aniline and 0.60M H2SO4. The electron spin resonance (ESR) measurements of the emeraldine salt of polyaniline were done in a wide pH range of 0.7 (0.20M H2SO4 solution) to 12.0 of 0.30M Na2SO4 solution. It was found that the ESR signal of polyaniline was still very strong at pH 10.0 and then its ESR signal disappeared at pH>10.0. This result is unexpected because polyaniline was electrochemically inactive and its conductivity vanished at pH>5.0 based on the previous reports. The visible spectra of polyaniline showed no change in the absorption peak position in a pH range of 0.7–7.0, indicating no occurrence of deprotonation; while its absorption peak shifted markedly towards the short wavelength direction from pH 8.0 to 12.0, as a result polyaniline film become purple, indicating occurrence of deprotonation. The ESR signal disappearance and deprotonation of polyaniline are strongly related to pKb values of pH functional group in polyaniline chains. The entire deprotonation process of polyaniline is suggested to include the conventional deprotonation step, i.e.; without charge transfer and the reduction step of polyaniline that was confirmed with electrochemical measurements.