AI Article Synopsis
- This research focuses on creating electrodes made from functionalized graphite that integrate well with brain tissue for long-term electrophysiology.
- The electrodes feature biotin and specific peptide tags, allowing them to detect electrical changes in nearby quantum dots and fluorescing molecules.
- Confirmatory techniques like Auger and fluorescence spectroscopy ensured that the surface modifications worked as intended, paving the way for versatile applications in fields such as biomolecular sensing and tissue engineering.
Article Abstract
Long-term, minimally perturbative brain electrophysiology requires electrodes to seamlessly integrate into surrounding tissue. In this work, we demonstrate electrodes composed of covalently functionalized graphite, decorated with various functional affinity and epitope tags, and use them to detect changes in electrical potential on the surfaces of illuminated quantum dots and near fluorescing molecules. Affinity and epitope tagging of carbon was achieved using direct attachment of biotin and solid phase peptide synthesis (SPPS) of histidine (His)- and human influenza hemagglutinin (HA)-tags. Surface modification was confirmed with Auger, Energy-Dispersive X-ray (EDX), Raman, and fluorescence spectroscopy. Photoresponse was detected with compatible binding protein-surface tag combinations, confirming desired tag and electrode functionality. These results provide a path to organic, biofunctionalized, fully molecularly-defined electrodes for neuronal applications, and to a wide range of other secondary reactions and modifications of carbon; potential uses include affinity chromatography, DNA sequencing technologies, biomolecular sensors, and surfaces and scaffolds for targeted interfaces with biological tissues.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6882871 | PMC |
| http://dx.doi.org/10.1038/s41598-019-54000-9 | DOI Listing |
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