A functionalized single-wall carbon nanotube (SWNT), fabricated using an acid treatment, was used to prepare SWNT/ferritin composites. Different physical and chemical composites were synthesized on a glassy carbon electrode, and their structures and electrochemical properties were analyzed. The specific redox reaction due to ferritin appeared in both composites, but depended on the structure of the composite, which influenced the electrochemical properties. The redox reaction of ferritin was analyzed using fulfilled core, holoferritin, and coreless, apoferritin. From the electrochemical results, we confirmed that electron transfer through the ferritin shell is possible, and that the core of the ferritin facilitates electron transfer in the composites. The chemical composites showed a significant catalytic activity towards hydrogen peroxide, and the electrochemical results show that this type of composite has potential as biosensors and in bioapplications.
Shin, K., Lee, J., Wallace, G. G. & Kim, S. (2008). Electrochemical properties of SWNT/ferritin composite for bioapplications. Sensors and Actuators B: Chemical: international journal devoted to research and development of physical and chemical transducers, 133 393-397.