Human exposure to polycyclic aromatic hydrocarbons (PAHs) may cause adverse health effects (e.g., lung cancer, DNA damage, reproductive toxicology and the child developmental effects), especially in fine particulate phase. The objectives of this study were using 24-hour continuous sampling results to (1) quantify PAHs concentration levels in PM2.5 (particles with an aerodynamic diameter less than 2.5μm) at various heights, (2) estimate the potential health risks associated with inhalation exposure, and (3) evaluate the contributions of compositions from emission sources in Taipei metropolis. The sampling campaigns were conducted at five buildings in Taipei metropolis from June 14 in 2016 to May 4 in 2017. Each set of sampling sites (low-, mid-, and high-level floors) was monitored simultaneously. A total of 31 PAHs were identified and quantified by an optimized analytical method of thermal desorption (TD) integrated to a gas chromatograph–mass spectrometer (GC/MS). Finally, Chemical Mass Balance (CMB) model was used for the source apportionments of pollutants. The average concentrations of PM2.5-bound PAHs (except Nap) were 1.123 ± 0.869 (ranged from 0.231 to 5.551) ng/m3. The predominant PAHs were Benzo[b]fluoranthene group and Benzo[ghi]perylene, constituting 19.73% and 11.78% of the total PAH contents. The average benzo[a]pyrene-equivalent toxicity (ΣBaPeq) was 0.075 ± 0.068 ng/m3, lower than the maximum permissible risk level of 1 ng/m3 (WHO). Moreover, both the average concentrations and ΣBaPeq values showed a decreased gradient from low-floor to high-floor. With regard to the results of source contributions, the major source was dominated by vehicle emission sources, accounting for 54.5%, followed by incense-burning activities (13.30%), road dust (12.94%), industrial activities (10.92%) and cooking (8.26%). About the vertical trend, the average source contributions from gasoline-powered vehicle exhaust, diesel-powered vehicle exhaust, brake lining particle and road dust decreased with heights. The incense burning and industrial activities did not show the difference by heights. However, the source of cooking reveled the trend which was influenced by the sampling environments. The results served to better define the trend of PM2.5 bound PAH and its source contributions in Taipei metropolis for developing a more effective policies to protect public health.