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W4315702981 endingPage "365" @default.
W4315702981 startingPage "358" @default.
W4315702981 abstract "Modification of electrodes with biomolecules is an essential first step for the development of bioelectrochemical systems, which are used in a variety of applications ranging from sensors to fuel cells. Gold is often used because of its ease of modification with thiolated biomolecules, but carbon screen-printed electrodes (SPEs) are gaining popularity due to their low cost and fabrication from abundant resources. However, their effective modification with biomolecules remains a challenge; the majority of work to-date relies on nonspecific adhesion or broad amide bond formation to chemical handles on the electrode surface. By combining facile electrochemical modification to add an aniline handle to electrodes with a specific and biocompatible oxidative coupling reaction, we can readily modify carbon electrodes with a variety of biomolecules. Importantly, both proteins and DNA maintain bioactive conformations following coupling. We have then used biomolecule-modified electrodes to generate microbial monolayers through DNA-directed immobilization. This work provides an easy, general strategy to modify inexpensive carbon electrodes, significantly expanding their potential as bioelectrochemical systems." @default.
W4315702981 created "2023-01-12" @default.
W4315702981 creator A5003630361 @default.
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W4315702981 creator A5079948886 @default.
W4315702981 date "2023-01-12" @default.
W4315702981 modified "2023-09-27" @default.
W4315702981 title "Carbon Electrode-Based Biosensing Enabled by Biocompatible Surface Modification with DNA and Proteins" @default.
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W4315702981 doi "https://doi.org/10.1021/acs.bioconjchem.2c00542" @default.
W4315702981 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/36633230" @default.
W4315702981 hasPublicationYear "2023" @default.
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