From Mik Anderson's book:
"Brain nano-network
• It aims to form a neuronal interface to interact with the cognitive, physical, and electrical processes of brain activity for neuromodulation, neurostimulation, and neurocontrol.
• This requires the introduction of carbon nanotubes that serve to link neurons, shortening the natural distance of axons. This can also be achieved with graphene quantum dots and graphene nanosheets, although the literature makes explicit that single-walled carbon nanotubes SWCNT or multi-walled carbon nanotubes MWCNT are the key element.
• The carbon nanotubes together with the hydrogel in which they are coated act as electrodes, picking up the fluctuations of the electrical activity of the neurons, with sufficient sensitivity to determine the segregation of neurotransmitters"
From Mik Anderson's book: "Brain nano-network • It aims to form a neuronal interface to interact with the cognitive, physical, and electrical processes of brain activity for neuromodulation, neurostimulation, and neurocontrol. • This requires the introduction of carbon nanotubes that serve to link neurons, shortening the natural distance of axons. This can also be achieved with graphene quantum dots and graphene nanosheets, although the literature makes explicit that single-walled carbon nanotubes SWCNT or multi-walled carbon nanotubes MWCNT are the key element. • The carbon nanotubes together with the hydrogel in which they are coated act as electrodes, picking up the fluctuations of the electrical activity of the neurons, with sufficient sensitivity to determine the segregation of neurotransmitters"
https://t.co/7ZLfThC2iF