Add to ORKGThe cytocompatibility of cardiomyocytes derived from embryonic stem cells and neural progenitors, which were seeded on the surface of composite films made of graphene oxide (GO) and polypyrrole (PPy-GO) or poly(3,4-ethylenedioxythiophene) (PEDOT-GO) are reported. The GO incorporated in the composite matrix contributes to the patterning of the composite surface, while the electrically conducting PPy and PEDOT serve as ion-to-electron transducers facilitating electrical stimulation/sensing. The films were fabricated by a simple one-step electropolymerization procedure on electrically conducting indium tin oxide (ITO) and graphene paper (GP) substrates. Factors affecting the cell behaviour, i.e. the surface topography, wettability, and electri...
The growing clinical demand for electrical stimulation-based therapies requires the development of n...
This thesis aims to illuminate two different approaches to improve electrical implants in the future...
This thesis aims to illuminate two different approaches to improve electrical implants in the future...
A novel nanointerface of graphene oxide-doped polypyrrole (GO/PPy) is prepared on the surface of an ...
The combination of composite nerve materials prepared using degradable polymer materials with biolog...
Recently graphene and graphene based composites are emerging as better materials to fabricate scaffo...
Electroconductive substrates are emerging as promising functional materials for biomedical applicati...
Recently graphene and graphene based composites are emerging as better materials to fabricate scaffo...
Recently graphene and graphene based composites are emerging as better materials to fabricate scaffo...
Recently graphene and graphene based composites are emerging as better materials to fabricate scaffo...
Recently graphene and graphene based composites are emerging as better materials to fabricate scaffo...
Recently graphene and graphene based composites are emerging as better materials to fabricate scaffo...
Conducting polymers have been extensively reported as promising coating materials for applications i...
Conducting polymers have been extensively reported as promising coating materials for applications i...
Stem cell destiny can be controlled with scaffold biomaterials in tissue engineering and regenerativ...
The growing clinical demand for electrical stimulation-based therapies requires the development of n...
This thesis aims to illuminate two different approaches to improve electrical implants in the future...
This thesis aims to illuminate two different approaches to improve electrical implants in the future...
A novel nanointerface of graphene oxide-doped polypyrrole (GO/PPy) is prepared on the surface of an ...
The combination of composite nerve materials prepared using degradable polymer materials with biolog...
Recently graphene and graphene based composites are emerging as better materials to fabricate scaffo...
Electroconductive substrates are emerging as promising functional materials for biomedical applicati...
Recently graphene and graphene based composites are emerging as better materials to fabricate scaffo...
Recently graphene and graphene based composites are emerging as better materials to fabricate scaffo...
Recently graphene and graphene based composites are emerging as better materials to fabricate scaffo...
Recently graphene and graphene based composites are emerging as better materials to fabricate scaffo...
Recently graphene and graphene based composites are emerging as better materials to fabricate scaffo...
Conducting polymers have been extensively reported as promising coating materials for applications i...
Conducting polymers have been extensively reported as promising coating materials for applications i...
Stem cell destiny can be controlled with scaffold biomaterials in tissue engineering and regenerativ...
The growing clinical demand for electrical stimulation-based therapies requires the development of n...
This thesis aims to illuminate two different approaches to improve electrical implants in the future...
This thesis aims to illuminate two different approaches to improve electrical implants in the future...