1. Protein Electrochemistry Using Aligned Carbon Nanotube Arrays
- Author
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Dusan Losic, Freya J. Mearns, D. Brynn Hibbert, Rahmat Wibowo, Jingquan Liu, Joseph G. Shapter, J. Justin Gooding, Shannon Orbons, Wenrong Yang, Losic, Dusan, Gooding, J, Wibowo, R, Liu, J, Yang, W, Orbons, S, Mearns, F, Shapter, Joseph, and Hibbert, David
- Subjects
Nanotubes, Carbon ,Chemistry ,Cysteamine ,Nanotechnology ,Biosensing Techniques ,General Chemistry ,Carbon nanotube ,Electrochemistry ,Biochemistry ,Redox ,Catalysis ,law.invention ,Electron transfer ,Molecular wire ,Colloid and Surface Chemistry ,Peroxidases ,law ,Electrode ,Self-assembly ,Oxidation-Reduction ,Biosensor - Abstract
The remarkable electrocatalytic properties and small size of carbon nanotubes make them ideal for achieving direct electron transfer to proteins, important in understanding their redox properties and in the development of biosensors. Here, we report shortened SWNTs can be aligned normal to an electrode by self-assembly and act as molecular wires to allow electrical communication between the underlying electrode and redox proteins covalently attached to the ends of the SWNTs, in this case, microperoxidase MP-11. The efficiency of the electron transfer through the SWNTs is demonstrated by electrodes modified with tubes cut to different lengths having the same electron-transfer rate constant.
- Published
- 2003
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