Electrochemistry is principally the study of chemical reactions. This feature makes the study of protein via ferrocene-terminated alkanethiol modified SAM a feasible plan. In this study, biomimic modified gold electrode with ferrocene-terminated alkanethiol and lipid complex layer is designed and fabricated to serve as biomimic C-reactive protein sensor using electrochemical determination. The scope of this research is to know whether ferrocen-terminated SAM and hydrogenated phosphocholine biomimic hybrid bilayer could be used to perform C-reactive protein detection. With different mole fraction of ferrocene-terminated alkanethiol mixed with unsubstituted alkanethiol to manipulate the surface hydrophilicity and electro-conductivity, this redoxactive layer may give appropriate electron transfer ability of interconversion of electrical energy during molecular recognition. The result shows that mixed hydrophobic SAM, which consists of ferrocenylundecanethiol and undecanethiol formed by soaking gold substrates in ethanol solutions of these two compounds, can increase electrode electron transfer ability. And after coating phospholipids, the electroactive molecules are hindered from the electrode, thus this kind of biomimic layer design can be used to measure CRP. Its electrochemical property and the changes of electrode’s electron transfer ability are characterized by cyclic voltammetry. The output of linear regression between induced current and concentration shows a value of R squared of 0.8478 which implies a good linearity.