TECHNOLOGY REVIEW: The emerging technology of neural prostheses has the power to change what it means to be human. The ability to implant electrodes into the eyes ears, spine or even the brain has the potential to overcome degenerative disease, mend broken bodies and even enhance our senses with superhuman abilities.
But despite numerous trials of electronic devices implanted into the human body, there are still many challenges ahead. The problem is that most of these devices are based on silicon substrates which are hard, rigid and sharp. Those are not normally qualities that sit well with soft tissue.
Consequently, any small movement of these devices can damage nearby tissue and in the worst cases, form scar tissue. What’s more, the hot, wet and salty environment inside the body can damage electronic components, limiting their lifespan.
What’s needed, of course, is a flexible substrate that is also biocompatible with human tissue. Now Lucas Hess and pals at the Technische Universität München in Germany say they’ve found the ideal material–graphene. Today, they outline their plans for graphene-based neural prostheses and the experiments they’ve already done to test its biocompatibility.
Graphene is ideal because carbon “chicken wire” is only a single atom thick and therefore highly flexible. It is also held together by carbon bonds, which are among the most stable known to chemists. That means it should be relatively stable inside the human body.
Physics arXiv: Graphene transistors for bioelectronics
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