Cavity resonator perturbation technique is a technique for measuring the complex permeability and dielectric constant of materials. This method uses network analyzer to measure the shift of resonant frequency and the change of quality factor in a resonant cavity. These performance changes of cavity can be used to derive the complex permeability and dielectric constant. Cavity resonator perturbation technique has very good accuracy and only needs small volume of measured samples. 　　The Fe3O4 ferrofluids have been widely used for biomedical applications recent years, and the biomedical detection is one of the significant application of it. This study would like to provide a possibility of application on biomedical detection by using cavity resonator perturbation technique. 　　This study use cavity resonator perturbation technique to measure the complex permeability of three different samples: The pure Fe3O4 ferrofluids and Fe3O4 ferrofluids coated by PEG or FITC-NHS ester. The measurement frequency is at 2GHz to 5Ghz. The used cavity is a rectangular cavity resonator and the dominant mode of the measurement is TE102 and TE104. The Fe3O4 nanoparticles sample is prepared by chemical disposition method, its average particle size is 25nm, and the zeta potential is 50mv.