Abstract:An analytical method based on high performance liquid chromatography（HPLC）was established for the simultaneous determination of 10 natural phenyl flavors （benzyl alcohol，benzaldehyde，benzoic acid，benzyl alcohol，acetophenone，cinnamol，cinnamaldehyde，cinnamic acid 3 -phenylpropanol and 3 -phenylpropanal）in microbial transformed cinnamaldehyde system.The samples were extracted with anhydrous ethanol.After centrifuging and filtering，the samples were separated on a SunFireTMC18（250 mm × 4.6 mm，5 μm）column and detected by UV-detector.The mobile phase was methanol ∶acetonitrile ∶water ∶acetic acid=28.4 ∶18 ∶53.6 ∶0.04（volume ratio）.The flow rate was 1.0 mL/min.The results showed that there existed good linear re－lationships for the ten components（0.998 7≤R2≤0.999 6）within the range of 2.00 mg/L-318.60 mg/L.The average recoveries were in the range of 92.13%-102.90%with the relative standard deviations of 0.62%-4.01%.The detection limits （LOD，S/N=3）were ranged from 0.36 mg/L to 1.16 mg/L.This method is suitable for the determination of the phenyl flavors in the microbial transformation reaction system of cinnamaldehyde，especially suitable for screening strains which can efficiently transform cinnamaldehyde to natural phenyl flavors.