EAGER: Highly sensitive magnetoelectric CFO-BTO nanostructures as minimally invasive bioel — NSF Award to University of Wisconsin-
This project advances science and technology by addressing a societal need for developing fundamentally new techniques for better detecting brain activity. A multitude of biomedical technologies enable direct brain recording and stimulation and are central to brain research and for diagnosing and treating neurological
| Award title | EAGER: Highly sensitive magnetoelectric CFO-BTO nanostructures as minimally invasive bioel |
|---|---|
| Award ID | 2427177 |
| Awardee | University of Wisconsin-Madison |
| City | MADISON |
| State | WI |
| Amount obligated | $100,001 |
| Principal investigator | Aviad Hai |
| Program | CCSS-Comms Circuits & Sens Sys |
| Start date | 10/01/2024 |
| Abstract | This project advances science and technology by addressing a societal need for developing fundamentally new techniques for better detecting brain activity. A multitude of biomedical technologies enable direct brain recording and stimulation and are central to brain research and for diagnosing and treating neurological disorders. However, current techniques are either highly invasive, require bulky transmission circuitry, or provide spatially constrained nonspecific readouts from limited regions |
| Source | NSF Awards |
$799/mo
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