R-3 Repository :: Browsing by Author "Metzger, Andrew B."

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Physical and electrical characterization of TexasPEG: An electrically conductive neuronal scaffold
(Wolters Kluwer - Medknow, 2017) Sikkema, William K.A.; Metzger, Andrew B.; Wang, Tuo; Tour, James M.
Background: Graphene and its derivatives have been shown to be biocompatible and electrically active materials upon which neurons readily grow. The fusogen poly(ethylene glycol) (PEG) has been shown to improve outcomes after cervical and dorsal spinal cord transection. The long and narrow PEGylated graphene nanoribbon stacks (PEG-GNRs) with their 5 μm × 200 nm × 10 nm dimensions can provide a scaffold upon which neurons can grow and fuse. We disclose here the extensive characterization data for the PEG-GNRs. Methods: PEG-GNRs were chemically synthesized and chemically and electrically characterized. Results: The average aspect ratio of the PEG-GNRs was determined to be ~85, which corresponds to a critical percolation value (the point where insulating material becomes conductive by addition of conductive particles) of 1%. However, there was not a sharp increase in AC conductivity at frequencies relevant to action potentials. Conclusion: A robust characterization of PEG-GNRs is discussed, though the precise origin of efficacy in improving outcomes following spinal cord transection is not known.