Sandstorm events frequently perplex northern China, addressing the people's concern due to subsequent increases in the toxicity and carcinogenicity of PM_(2.5)-bound PAHs (PB-PAHs) in receptor area of sand dust. Here, we enacted a field campaign in a small city between Beijing and Baoding in spring of 2021 covering the sandstorm period (SSP) and non-sandstorm period (NSSP) to examine the sandstorm impacts on chemistries of PB-PAHs. SSP exhibited a slightly high average PAH concentrations of 10.3 ng m^(-3) than 9.16 ng m^(-3) in the NSSP. At the same time, the average PM_(2.5) concentrations obviously increased from 60.7 μg m^(-3) to 75.2 μg m^(-3). Positive matrix factorization (PMF) analysis manifested that sandstorm largely enhanced the oil leakage and combustion (OLC) fractions from 18.0% in the NSSP to 34.4% in the SSP. Potential source contribution function (PSCF) indicated that OLC partly came from sandstorm origin area-Inner Mongolia. Low diagnostic ratios of FA/(FA + PY) in the SSP also indicated OLC was more important. Accordingly, the largest contributor of incremental lifetime cancer risks (ILCRs) changed from vehicle exhaust (VE) (36.2%) in the NSSP to OLC (34.4%) in the SSP. VE and industrial emission (IE) contributions decreased obviously due to emission control and traffic limitation in the SSP. Coal burning (CB) still held a high contribution to PAHs regardless of the implementation of "coal to gas" law in the sampling area. In addition, sandstorms increased the levels of high molecular weight PAHs (HMW-PAHs) with high toxicity by 4.07%. ILCRs for adults and children increased from 3.90 × 10^(-7) to 4.74 × 10^(-7) and from 2.41 × 10^(-7) to 2.93 × 10^(-7), respectively, in the SSP, which should be more concerned.