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A hybrid system for producing conducting polymers within a doping hydrogel mesh is presented. These conductive hydrogels demonstrate comparable electroactivity to conventional conducting polymers without requiring the need for mobile doping ions which are typically used in literature. These hybrids have superior mechanical stability and a modulus significantly closer to neural tissue than materials...
Cover: Conductive hydrogels are softer, more mechanically robust materials for tissue interfacing devices where conductivity is desirable. The biologically active, anionic hydrogel component effectively and stably dopes the conducting polymer component to form an electroactive material which supports neural cell survival and growth. Further details can be found in the article by R. A. Green,* R. T...
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