Maintaining Cytocompatibility of Biopolymers Through a Graphene Layer for Electrical Stimulation of Nerve Cells

Autor: Brianna C. Thompson, Jonathan K. Wassei, Michael J. Higgins, Peter C. Sherrell, Gordon G. Wallace, Richard B. Kaner, Amy Gelmi
Rok vydání: 2013
Předmět:
Zdroj: Advanced Functional Materials. 24:769-776
ISSN: 1616-301X
Popis: Here, the utility of large-area graphene as a flexible, biocompatible electrode to stimulate cell growth is demonstrated. Chemical vapor deposition allows the production of highly crystalline, single, double, or few-layered graphene on copper substrates. The subsequent transfer to a biopolymer support, such as polylactic acid (PLA) or polylactic-co-glycolic acid (PLGA) copolymers, provides a unique electrode structure retaining the flexibility and surface properties of the underlying materials with a conductive graphene layer sufficient to enable electrical communication with excitable cells. The growth and compatibility of PC-12 cells on these graphene-biopolymer (GPB) electrodes is influenced more by the underlying polymer than the presence of graphene, demonstrating that the characteristics influencing biocompatibility have been retained after graphene modification. Differentiation of these cells into neural phenotypes is enhanced using electrical stimulation through the graphene conductive layer, confirming that the conductivity of graphene is sufficient to electrically communicate with cells grown on the surface. The process described herein demonstrates that non-conducting, flexible biopolymer surfaces can be easily coated with graphene without changing the biocompatibility of the materials. This could be used to create electrodes from non-conducting materials with optimized cell compatibility with graphene providing electrical properties suitable for stimulation of cells without greatly changing the surface properties. Bilayer graphene, transferred as a layer onto biopolymers, is used as a flexible biological interface material for electrical cell stimulation. Bilayer graphene provides a conductive layer without changing the cytocompatibility of the underlying layer, allowing electrical stimulation of cells on substrates of chosen composition. The production of flexible, biocompatible electrodes is described and the differentiation of neural cells is demonstrated for the first time from a graphene-based electrode. © 2013 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.
Databáze: OpenAIRE
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