基于微控制器的传感器检测系统具有多通道输出与输入、良好的人机交互性、可现场检测等优点,能够最大限度提升传感器的应用空间,因此成为传感器检测系统的主要发展方向之一。本文研制了基于STM32的差分型检测系统,可实现激励电压控制、量程选择、信号差分采集、数据实时显示与存储等功能。以pH敏感型液栅石墨烯场效应晶体管生化传感器为例,对检测结果进行线性拟合,拟合直线的斜率为?1.8,即被测溶液pH每变化1,该检测系统输出电流变化1.8 μA,线性相关系数R2 = 0.94。实验结果表明,该检测系统能够有效检测溶液pH,验证了系统的可行性。
The sensor detection systems based on
the micro-controller have the advantages of multi-channel output and input, friendly
human-machine interaction and field detection. They can expand the application
space of the sensor to the maximum. Thus, they have become one of the main
development direction of the sensor detection systems. In this work, a
differential detection system based on STM32 is developed, which can realize
the control of driving voltage, selection of range measure, acquisition of
signal differential detection, real-time data display and storage. We take the
pH sensitive liquid gate_graphene field effect transistor biochemical sensor as
an example to verify the feasibility of the system. The results of differential
detection were linearly fitted, with an slope of ?1.8 and a linear correlation
coefficient of R2 = 0.94. The pH of solution change of 1 can induce
1.8 μA in the output current of detection system. The experimental results show
that the detection system is able to effectively detect the pH of solution.
Chen, T.-Y., Loan, P.T.K., Hsu, C.-L., Lee, Y.-H., Wang, J.T.-W., Wei, K.-H., Lin, C.-T. and Li, L.-J. (2013) Label-Free Detection of DNA Hybridization Using Transistors Based on CVD Grown Graphene. Biosensors and Bioelectronics, 41, 103-109. https://doi.org/10.1016/j.bios.2012.07.059
[7]
Huang, Y.X., Dong, X.C., Liu, Y.X., et al. (2011) Gra-phene-Based Biosensors for Detection of Bacteria and Their Metabolic Activities. Journal of Materials Chemistry, 21, 12358-12362. https://doi.org/10.1039/c1jm11436k
