CAREER: High bandwidth nano-transistors to understand the kinetic basis for CRISPR/CAS enz — NSF Award to University of California
The knowledge of how biological molecules interact with each other is essential to understanding their roles in sustaining life. Molecular interactions are commonly measured using optical techniques and specialized optical labels on the molecules of interest. Recent advances in modern electronics and nanoscale material
| Award title | CAREER: High bandwidth nano-transistors to understand the kinetic basis for CRISPR/CAS enz |
|---|---|
| Award ID | 2427540 |
| Awardee | University of California-San Diego |
| City | LA JOLLA |
| State | CA |
| Amount obligated | $197,503 |
| Principal investigator | Kiana Aran |
| Program | BIOSENS-Biosensing |
| Start date | 11/01/2023 |
| Abstract | The knowledge of how biological molecules interact with each other is essential to understanding their roles in sustaining life. Molecular interactions are commonly measured using optical techniques and specialized optical labels on the molecules of interest. Recent advances in modern electronics and nanoscale materials potentially allow continuous monitoring of molecular interactions in a more natural state without optical labels and instruments. The goal of this CAREER project is to develop a |
| Source | NSF Awards |
$799/mo
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