Add to ORKGEffectively bridging the interface between electronics and biology is critically dependent on advances in new electronically conducting materials. The discovery of inherently conducting polymers (ICPs) in the late 1970s revolutionised this field and organic electronic conductors are now at our disposal. The soft character of ICPs provides an extra dimension in designing interfaces between the hard, digital electronics world and the soft, amorphous world of biological systems. ICPs are unique with their potential to impact on bionic devices from the molecular, through the cellular, to the skeletal level
Starting from the last decade, conductive polymers have been employed to realize a wide variety of d...
The field of organic bioelectronics is advancing rapidly in the development of materials and devices...
Through recent discoveries and new knowledge among correlations between molecular biology and materi...
The identification and development of materials that find application in biomedical applications has...
International audienceConducting polymers are an exciting class of organic electronic materials, whi...
Initially polymers were mainly used in the packaging and insulation. But past few decades has seen n...
Cell membranes are integral to the functioning of the cell and are therefore key to drive fundamenta...
The emergence of organic electronics – a technology that relies on carbon-based semiconductors to de...
Inherently conducting polymers (ICPs) have generated intense interest with over 7,000 publications i...
Inherently conducting polymers (ICPs) have generated intense interest with over 7,000 publications i...
Electrically-conducting polymers (CPs) were first developed as a revolutionary class of organic comp...
Conducting polymers (CPs) are organic semiconductors that have gained popularity in more recent year...
Abstract. Biomolecular electronics is rapidly evolving from physics, chemistry, biology, electron-ic...
Since the Nobel Prize awarded discovery that some polymers or “plastics” can be made electronically ...
Conducting polymers (CPs) have attracted significant attention in a variety of research fields, part...
Starting from the last decade, conductive polymers have been employed to realize a wide variety of d...
The field of organic bioelectronics is advancing rapidly in the development of materials and devices...
Through recent discoveries and new knowledge among correlations between molecular biology and materi...
The identification and development of materials that find application in biomedical applications has...
International audienceConducting polymers are an exciting class of organic electronic materials, whi...
Initially polymers were mainly used in the packaging and insulation. But past few decades has seen n...
Cell membranes are integral to the functioning of the cell and are therefore key to drive fundamenta...
The emergence of organic electronics – a technology that relies on carbon-based semiconductors to de...
Inherently conducting polymers (ICPs) have generated intense interest with over 7,000 publications i...
Inherently conducting polymers (ICPs) have generated intense interest with over 7,000 publications i...
Electrically-conducting polymers (CPs) were first developed as a revolutionary class of organic comp...
Conducting polymers (CPs) are organic semiconductors that have gained popularity in more recent year...
Abstract. Biomolecular electronics is rapidly evolving from physics, chemistry, biology, electron-ic...
Since the Nobel Prize awarded discovery that some polymers or “plastics” can be made electronically ...
Conducting polymers (CPs) have attracted significant attention in a variety of research fields, part...
Starting from the last decade, conductive polymers have been employed to realize a wide variety of d...
The field of organic bioelectronics is advancing rapidly in the development of materials and devices...
Through recent discoveries and new knowledge among correlations between molecular biology and materi...