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Brain-machine interfaces provide one way to connect with this puzzling organ system, including the brain. However, Carnegie Mellon University Associate Professor of Materials Science and Engineering and Biomedical Engineering Chris Bettinger and his group have created a hydrogel material and fabrication process for electrodes that stick to the brain, matching its soft, squishy makeup. But over time, the body interprets this material as an injury and a foreign body that needs to be attacked, degraded, isolated, and removed.
Inflammatory cells then surround the probe, disrupting the signal strength of the neurons in that area. We're trying to improve the temporal bandwidth of these probes, by preserving the longevity of the material. The rigidity of these electronics has evolved from being stiff like wood, to thin and flexible like paper, to stretchy and pliable like rubber bands. The challenge is that the processes used to make sophisticated electronics require high temperatures C or higher , a vacuum, and exotic solvents, buffers, acids, and bases to etch materials and patterns.
None of these are compatible with soft hydrogel materials. To combat these fundamental issues, Bettinger and his team created a new way to fabricate the electronics—decoupling the fabrication processes of the electronic part and the soft substrate it's embedded in. First, they construct the electronic part on a substrate that is compatible with high temperatures, extreme solvents, and a vacuum, and create the hydrogel substrate separately.
Then, they remove the electronic piece from its original substrate and adhere it to the hydrogel substrate. The final device contains a thin layer of electronics on a soft, flexible, and sticky substrate that has mechanical properties similar to those of the nervous system.
Another challenge was creating a material that was still adhesive in fluid. This is a private list, which means that the list of members is not available to non-members. Your email address: Your name optional : You may enter a privacy password below.
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Interfacing with the brain by Alexandra George Materials science researchers at Carnegie Mellon develop new materials and processes to fabricate neural probes that mimic the mechanical properties of the nervous system. The nervous system is loaded with encoded information: thoughts, emotions, motor control.
This system in our bodies is an enigma, and the more we can do to understand it, the more we can do to improve human life. Brain-machine interfaces provide one way to connect with this puzzling organ system, including the brain. However, Carnegie Mellon University Associate Professor of Materials Science and Engineering and Biomedical Engineering Chris Bettinger and his group have created a hydrogel material and fabrication process for electrodes that stick to the brain, matching its soft, squishy makeup.
But over time, the body interprets this material as an injury and a foreign body that needs to be attacked, degraded, isolated, and removed. Inflammatory cells then surround the probe, disrupting the signal strength of the neurons in that area. We're trying to improve the temporal bandwidth of these probes, by preserving the longevity of the material. The rigidity of these electronics has evolved from being stiff like wood, to thin and flexible like paper, to stretchy and pliable like rubber bands.
The challenge is that the processes used to make sophisticated electronics require high temperatures C or higher , a vacuum, and exotic solvents, buffers, acids, and bases to etch materials and patterns. None of these are compatible with soft hydrogel materials. To combat these fundamental issues, Bettinger and his team created a new way to fabricate the electronics—decoupling the fabrication processes of the electronic part and the soft substrate it's embedded in.
First, they construct the electronic part on a substrate that is compatible with high temperatures, extreme solvents, and a vacuum, and create the hydrogel substrate separately. About bettinger-group English USA To see the collection of prior postings to the list, visit the bettinger-group Archives. The current archive is only available to the list members. Using bettinger-group To post a message to all the list members, send email to bettinger-group lists.
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