1. Fine structure and related properties of the assembleable carbon nanotubes based electrode for new family of biosensors with chooseable selectivity
- Author
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Vidute Gureviciene, Jurgis Barkauskas, Edita Voitechovic, Julija Razumiene, Virginijus Bukauskas, and Arū nas Šetkus
- Subjects
Materials science ,Biomedical Engineering ,Carbohydrates ,Bioengineering ,Nanotechnology ,macromolecular substances ,Carbon nanotube ,Biosensing Techniques ,Microscopy, Scanning Probe ,Sensitivity and Specificity ,law.invention ,Scanning probe microscopy ,law ,General Materials Science ,Nanoscopic scale ,Electrodes ,Polycarboxylate Cement ,Nanotubes, Carbon ,technology, industry, and agriculture ,General Chemistry ,Condensed Matter Physics ,Enzymes, Immobilized ,Membrane ,Glucose ,Electrode ,Selectivity ,Biosensor ,Layer (electronics) - Abstract
Surfaces of constituent parts of biosensors based on single wall carbon nanotube layer were investigated and compare for properly functioning and faulty biosensors. Though the original technology is acceptable for changing of the selectivity, only glucose sensitive biosensors are investigated. Based on the results of the study, a correlation between the features of the nanoscale structures and parameters of amperiometric biosensors for assemblage of which an innovative approach is described. Original template of the electrodes has been prepared on a base of single wall carbon nanotube layer deposited on the supporting polycarbonate membrane. Original immobilisation of enzymes within special membrane allows functional modification of biosensors being accomplished by simple replacement of the enzymatic membrane. The original technology leads to a novel family of biosensors acceptable for detection of wide range of carbohydrates. The morphology and the local electric properties of the constituent parts of the biosensors are characterized by scanning probe microscopy. The sensitivity, selectivity and stability are described for typical types of the biosensors.
- Published
- 2012