Based on the magnetic properties of nano-iron oxide, this study uses it as a material for home-made detectors, and its electrical parameters are analyzed, and its reactance to different kinds of volatile organic gas (VOCs) is measured at high frequencies. The surface of iron oxide nanoparticle is modified with oleic acid so that they can exist in the form of stable colloidal solution, and then coated on the interdigital electrode(IDE) processed by micro-process, combined into a gas chromatography detector, which is connected in series with the desktop gas chromatograph(GC) to detect eleven organic gases, and the results all showed a good linear relationship (R2>0.99), sensitivity and reproducibility. According to the experimental results, the iron oxide nanofilm detector in this study has better sensing sensitivity for compounds with high boiling point and high polarity. Taking anisole as an example, its detection limit can even below 20 ng, and it is also found from the study that the home-made detector is beneficial to detect halogenated compounds. In addition, the iron oxide nanoparticle was replaced with silver nanoparticle modified with hexadecyl mercaptan and compared with each other by the same experiment method. The results showed that the signal intensity of the iron oxide nanoparticles was higher is several times larger than that of silver nanoparticle, showing the uniqueness of iron oxide nanoparticles.