About one third of the world’s population is infected with tuberculosis (TB) bacteria. As the screening technique is still time-consuming and labor-intensive; it is hard to pursue large scale TB screening. With an attempt to alleviate this problem, our team chooses IFN-γ as our target protein so as to pursue a label-free, no rinse step requirement, real-time, and rapid detection technique. To verify the ellipsometry and interferometry developed by our group before, we executed the measurements of ellipsometry and commercial electrochemical work station CHI simultaneously to detect Interferon gamma (IFN-γ). We also use the linker CS20S developed within the team to bind IFN-γ-Ab onto the biochip. Besides, we designed a flow channel and corresponding chip to integrate ellipsometer and electrochemical detection within the same platform. This platform provides us with an opportunity to measure the phase change of ellipsometry and the electronic signal of Electrochemical Impedance Spectroscopy (EIS) simultaneously. To change the angle of the incidence light beam, we used LabVIEW to control the motor so as to identify the proper surface resonance angle. Signal calibration and measurements are also carried out by the LabVIEW program. The results of this research show the trend of EIS and ellipsometry agree well in most ranges. In higher concentration samples (0.5~1 μM ) measurement cases, the phase and resistance increase when the concentration increases. On the other hand, in measuring lower concentration samples (0.125~0.25 μM ), the EIS signal may be affected by the isoelectric point(pI) value. More specifically, the pI value of IFN-γ is 9.61 and is positive charged in pH 7.2 running buffer. More specifically, IFN-γ is attractive to redox couple in the above-mentioned condition and the steric hindrance may prevent charge carrier from getting closer. The two factors compete with each other, which result electrostatic attraction domination in low concentration so as to make resistance decrease. On the other hand, steric hindrance dominates in high concentration, which makes resistance increase. On the other hand, ellipsometry does not get affected by the pI value so the phase increases with concentrations in both high and low concentrations.