Analytical Sciences


Abstract − Analytical Sciences, 30(9), 903 (2014).

Fabrication of Graphene Coated Carbon Fiber Microelectrode for Highly Sensitive Detection Application
Jie BAI, Xiaojuan WANG, Yuning MENG, Hui-Min ZHANG, and Liangti QU
School of Chemistry, Beijing Institute of Technology, Beijing 100081, P. R. China
Graphene, as a novel carbon nanomaterial, exhibits superior performance in electrochemical sensors. Here, graphene was applied to the microelectrode system by a simple method. A novel graphene coating carbon fiber microelectrode (G-CFM) was fabricated by electrodepositing graphene on the surface of carbon fiber. The fabrication method is fast and simple. Scanning electron microscopy and Raman spectroscopy demonstrated that carbon fiber was successfully modified by graphene. The electrochemical behavior of G-CFM was characterized by potassium ferricyanide and dopamine (DA). The electrode exhibited much larger current response and less overpotential response, compared to CFM. The microsensor for DA showed good sensitivity and selectivity, and the electrode had good stability. It is believable that the unique characteristic of graphene holds promise for the advanced microelectrode system for highly sensitive detection of various targets.