PM_(2.5) impacts the atmospheric temperature structure through scattering or absorbing solar radiation, whose concentration and composition can affect the impact. This study calculated the effect of PM_(2.5) on the temperature structures in the urban centre and the suburbs of Nanjing, as well as their differences. The results show that the optical parameters, atmospheric heating rate, radiative forcing, and temperature are all impacted by the concentration and composition of PM_(2.5). The uneven distribution of PM_(2.5) influences the differences in those factors between the urban centre and suburbs. In spring, summer, autumn, and winter, surface temperatures in the urban centre were approximately 283 K, 285 K, 305 K, and 277 K, while those in the suburbs were approximately 282 K, 283 K, 304 K, and 274 K. The urban heat island intensity has been reduced by 0.1-0.4 K due to the presence of PM_(2.5) in Nanjing. Due to the black carbon component's warming effect on the top of the boundary layer, the impact of PM_(2.5) on the urban heat island intensity profile drops quickly at the 0.75-1.25 km. PM_(2.5) may mask the "warm city" problem and have a more complex impact on the urban climate.