Readout circuit was developed to miniaturize the volume of ISFET (Ion-sensitive Field Effect Transistor). Besides the miniaturization, it also has advantages such as integration and the accurate output signal. To achieve the goal of design simplicity, we must know more about the basic devices including a high sensitive structure (ISFET) and a low sensitive structure (REFET). In this thesis, we first investigated the ZrO2 gate ISFET. We are interested in sensitivity and drift which are two important parameters for ISFET. The sensitivities are 57.08mV/pH for the p-type ISFET and 58.73mV/pH for the n-type ISFET respectively. The high sensitivity for the ISFET can bring the high resolution while measuring. Furthermore, we also interested in drift the other significant parameter of ISFET. Drift is the change of the threshold voltage of an ISFET. It is an unavoidable physical phenomenon while an ISFET immersed in the chemical solutions. To reduce the influence of drift, we introduce a feasible method in this thesis. We can successfully increase the signal-to-noise ratio with the use of the proposed method. In the second part of this study, we found the suitable REFET material. We select the mixture of Nafion and polyimide with the 1/1 ratio of Nafion comparing to polyimide. The sensitivity and drift rate of this chosen material are 8.12 mV/pH and 9.74 mV/hr respectively. The transconductance of this material is also similar to the ZrO2 gate ISFET. It is convenient for us to reduce the complexity of differential ISFET/REFET readout circuit because of the above properties of REFET.