Future neural electrodes: probing the electrical activity of nerves using 3D graphene networks. This research aims to develop a totally new type of neural electrode that will for the first time, allow reliable and long-term stimulation and recording. The approach incorporates graphene based biomaterials with tunable electrical and biological properties within supportive three-dimensional cellular microenvironments, greatly enhancing the electrical interactions between cells and the electrode. Th ....Future neural electrodes: probing the electrical activity of nerves using 3D graphene networks. This research aims to develop a totally new type of neural electrode that will for the first time, allow reliable and long-term stimulation and recording. The approach incorporates graphene based biomaterials with tunable electrical and biological properties within supportive three-dimensional cellular microenvironments, greatly enhancing the electrical interactions between cells and the electrode. The electrical properties of nerve cells will be probed using our three-dimensional graphene network, providing insight into the the brain-machine interface. This project is important as it directly addresses the inherent limitations of current electrode designs.Read moreRead less
Special Research Initiatives - Grant ID: SR0354599
Funder
Australian Research Council
Funding Amount
$10,000.00
Summary
An Integrated Intelligent Bio-machines Network. The increasing use of computing, advanced materials, electronic control with biological or human applications has provided the need to strengthen the nexus of these discipline areas. This proposal is expected to identify the critical areas of integration that can be realistically developed into meaningful technologies and products in the short-to-medium term. The significance of this network is to enhance the science and technology required for sy ....An Integrated Intelligent Bio-machines Network. The increasing use of computing, advanced materials, electronic control with biological or human applications has provided the need to strengthen the nexus of these discipline areas. This proposal is expected to identify the critical areas of integration that can be realistically developed into meaningful technologies and products in the short-to-medium term. The significance of this network is to enhance the science and technology required for systems and products such as bionic eyes, legs, muscles and larynxes. These products and systems characterize the essence of this network: The integration of hardware and software with wetware (Humans).Read moreRead less