FMRG: Bio: Manufacturing Ultra-High-Density DNA-Enabled Nanoelectronics Systems — NSF Award to Arizona State University (AZ, $3,00
The ability to design, manufacture, and integrate semiconductor-based devices led to the Information Technology revolution. Key to this advance was the decrease in the size of transistors from the micron-scale to the nanometer-scale. However, physical limitations within the manufacturing process are now limiting furthe
| Award title | FMRG: Bio: Manufacturing Ultra-High-Density DNA-Enabled Nanoelectronics Systems |
|---|---|
| Award ID | 2328217 |
| Awardee | Arizona State University |
| City | SCOTTSDALE |
| State | AZ |
| Amount obligated | $3,000,000 |
| Principal investigator | Joshua Hihath |
| Program | FM-Future Manufacturing, FM-Future Manufacturing |
| Start date | 09/01/2023 |
| Abstract | The ability to design, manufacture, and integrate semiconductor-based devices led to the Information Technology revolution. Key to this advance was the decrease in the size of transistors from the micron-scale to the nanometer-scale. However, physical limitations within the manufacturing process are now limiting further decreases in size and hence the density of electronic devices. Alternatively, it has long been imagined that molecular-scale components could play a role in electronic systems as |
| Source | NSF Awards |
$799/mo
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