One-step prepared of e-Gelatin-CNTs nano-composite fiber modified carbon fiber microelectrode for continuous dopamine monitoring: Characterization, biocompatibility evaluation and in vivo experiment

Abstract

Fabricating electrochemical sensor capable of stable sensing in complex organism's environment will undoubtedly underpin key in the development of implanted electrochemical sensor. However, nonspecific protein adsorption can greatly reduce sensing sensitivity of electrode due to the abundance of protein in vivo. Herein, we aim to fabricating a modified layer of good protein adsorption resistance. The nano-composite fibers from gelatin with good hydrophily and multiwall carbon nanotubes (CNTs) for constructing on the surface of carbon fiber microelectrode using one-step electrospinning technology (e-Gelatin-CNTs/CFME). A comprehensive discussing on the protein adsorption resistance of e-Gelatin-CNTs/CFME that are, through the use of SEM, AFM, water contact angle, UV–vis, cyclic voltammetry and I-T. The resulting electrochemical sensor revealed stable sensing sensitivity in protein solution, a slightly decrease (0.02nA/μM). Furthermore, the sensor was successfully used for the detection of DA in human blood. More remarkable, e-Gelatin-CNTs nano-composite fibers presented excellent biocompatibility, which could meet the biosafety as implantation materials in vivo. This work provided a platform for the development of implantable electrochemical sensor.