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Full-Text Articles in Physical Sciences and Mathematics
Can The Wet - State Conductivity Of Hydrogels Be Improved By Incorporation Of Spherical Conducting Nanoparticles?, Katharina Schirmer, Cody Wright, Holly Warren, Brianna C. Thompson, Anita F. Quigley, Robert M. I Kapsa, Gordon G. Wallace
Can The Wet - State Conductivity Of Hydrogels Be Improved By Incorporation Of Spherical Conducting Nanoparticles?, Katharina Schirmer, Cody Wright, Holly Warren, Brianna C. Thompson, Anita F. Quigley, Robert M. I Kapsa, Gordon G. Wallace
Australian Institute for Innovative Materials - Papers
In nerve and muscle regeneration applications, the incorporation of conducting elements into biocompatible materials has gained interest over the last few years, as it has been shown that electrical stimulation of some regenerating cells has a positive effect on their development. A variety of different materials, ranging from graphene to conducting polymers, have been incorporated into hydrogels and increased conductivities have been reported. However, the majority of conductivity measurements are performed in a dry state, even though material blends are designed for applications in a wet state, in vivo environment. The focus of this work is to use polypyrrole nanoparticles …