ECCS-EPSRC: Compact high-power 3 micrometer light source for biomedical applications. — NSF Award to SUNY at Stony Brook (NY, $400
Regenerative medicine has the potential to heal or replace tissues and organs damaged by age, disease, or trauma, as well as treat disorders occurring across a wide array of organ systems and contexts, including full thickness skin wounds, cardiovascular diseases and traumas, treatments for certain types of cancer, and
| Award title | ECCS-EPSRC: Compact high-power 3 micrometer light source for biomedical applications. |
|---|---|
| Award ID | 2502925 |
| Awardee | SUNY at Stony Brook |
| City | STONY BROOK |
| State | NY |
| Amount obligated | $400,021 |
| Principal investigator | Leon Shterengas |
| Program | EPMD-ElectrnPhoton&MagnDevices |
| Start date | 09/01/2025 |
| Abstract | Regenerative medicine has the potential to heal or replace tissues and organs damaged by age, disease, or trauma, as well as treat disorders occurring across a wide array of organ systems and contexts, including full thickness skin wounds, cardiovascular diseases and traumas, treatments for certain types of cancer, and more. Currently, the transplantation of intact donor organs and tissues faces challenges due to a limited supply and significant immune complications. Bioprinting is an emerging d |
| Source | NSF Awards |
$799/mo
Try NSFGrants →