▎ 摘　　要

This paper aimed to design a miniaturised electrochemical analyser (MEA) for glucose determination based on the integration of chitosan (CS), glucose oxidase (GOD) and electroreduced graphene oxide (e-RGO). The low-power programmable analog front-end LMP91000 and the microcontroller STM32F103C8T6 were combined into the hardware system of the MEA. The potentiostat function of the system was realised by applying the setting potential on the three-electrode sensor. By setting the trans-impedance gain, the current can be converted from a full range of 5 mu A to 750 mu A. The voltage signal was converted into the current signal using an algorithm to process the experimental results. Reliability of the MEA was verified by electrochemical workstation, and the performance was tested using a [Fe(CN6)](3) solution. The MEA showed a good linear relationship between the final steady-state current and the [Fe(CN6)](3-) concentration in the dynamic range of 0.2 mM to 10 mM (R-2 = 0.9841). GOD was fixed on a working electrode (WE) modified with e-RGO to prepare the glucose sensor. Finally, different glucose concentrations were measured using chronoamperometry with the MEA. The MEA sensitivity reached 169.32 mA/M.cm(-2), and the limit of detection amounted to 0.19 mM according to 3 delta/slope calculation.