Abstract:Ferric oxide（Fe3O4）/glassy carbon electrode（GCE） biosensor was prepared based on Fe3O4 magnetic nanomaterials and GCE.And The quantitative analysis of tert butyl hydroquinone（TBHQ）in fried food was carried out by Fe3O4/GCE.It was found that Fe3O4had a good conductivity and catalysis，could effectively promote the electron transfer on the electrode surface，increase the current response and improve the electrode sensitivity.TBHQ in fried food was detected by Fe3O4/GCE under optimal conditions.The study found that there was a wide linear from 0.5 μg/mL-35 μg/mL between the TBHQ concentration and oxidation peak current，the equation was Y=2.984 1X+0.048 0（X stand for TBHQ concentration，Y stand for oxidation peak current），R2=0.9996，the detection limit（3σ）for TBHQ was0.21 μg/mL.The recovery was99.60%-106.25%，recycling was very better and the accuracy of the method was very high，the results were consistent with the outcome that obtained by gas chromatography and reliable，which can afford for the requirement of the applition.And Fe3O4/GCE has good stability and repeatability，which can be used for the quantitative analysis of TBHQ in samples.