Renewable dehydrogenase-based interfaces for bioelectronic applications.

@article{Hassler2007RenewableDI,
  title={Renewable dehydrogenase-based interfaces for bioelectronic applications.},
  author={Brian L. Hassler and Neeraj Kohli and J. Gregory Zeikus and Ilsoon Lee and R. Mark Worden},
  journal={Langmuir : the ACS journal of surfaces and colloids},
  year={2007},
  volume={23 13},
  pages={
          7127-33
        }
}
Bioelectronic interfaces that establish electrical communication between redox enzymes and electrodes have potential applications as biosensors, biocatalytic reactors, and biological fuel cells. However, these interfaces contain labile components, including enzymes and cofactors, which have limited lifetimes and must be replaced periodically to allow long-term operation. Current methods to fabricate bioelectronic interfaces do not allow facile replacement of these components, thus limiting the… 
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