If you're interested in becoming a contributor or requesting changes then click here to join the discord
Difference between revisions of "Neurosoft Bioelectronics Soft Electrodes"
Jump to navigation
Jump to search
Landonodnal (talk | contribs) (Created page with "Category:Hardware "Our soft electrode technology can drastically reduce the risk of damaging neural structures, as the devices are 1000x softer and 2x thinner than current...") |
Landonodnal (talk | contribs) |
||
| Line 1: | Line 1: | ||
[[Category:Hardware]] | [[Category:Hardware]] | ||
"Our soft electrode technology can drastically reduce the risk of damaging neural structures, as the devices are 1000x softer and 2x thinner than current clinical electrodes. Additionally, they are MRI compatible and can easily be folded in the sulci, allowing unprecedented access to typically unreachable brain regions. Finally, the electrode sites integrated on the devices can be 100x smaller, providing high resolution for both recording and stimulation." | "Our soft electrode technology can drastically reduce the risk of damaging neural structures, as the devices are 1000x softer and 2x thinner than current clinical electrodes. Additionally, they are MRI compatible and can easily be folded in the sulci, allowing unprecedented access to typically unreachable brain regions. Finally, the electrode sites integrated on the devices can be 100x smaller, providing high resolution for both recording and stimulation." | ||
| + | |||
| + | ==Organizations== | ||
| + | *[[Neurosoft_Bioelectronics|Neurosoft Bioelectronics]] | ||
==Links== | ==Links== | ||
[https://neurosoft-bio.com/technology Website] | [https://neurosoft-bio.com/technology Website] | ||
Latest revision as of 22:53, 17 February 2024
"Our soft electrode technology can drastically reduce the risk of damaging neural structures, as the devices are 1000x softer and 2x thinner than current clinical electrodes. Additionally, they are MRI compatible and can easily be folded in the sulci, allowing unprecedented access to typically unreachable brain regions. Finally, the electrode sites integrated on the devices can be 100x smaller, providing high resolution for both recording and stimulation."