CAREER: Engineering Bichromatic Moire Superlattices for Tunable Emerging Quasiparticles an — NSF Award to Washington University (M
Non-technical Abstract: This project offers an integrated research and education effort centered on programmable quantum materials engineered through the controlled stacking of atomically thin layers. By arranging layers in designed patterns, the project reveals how structure at the nanoscale shapes the material behavi
| Award title | CAREER: Engineering Bichromatic Moire Superlattices for Tunable Emerging Quasiparticles an |
|---|---|
| Award ID | 2540941 |
| Awardee | Washington University |
| City | SAINT LOUIS |
| State | MO |
| Amount obligated | $548,927 |
| Principal investigator | Xi Wang |
| Program | CONDENSED MATTER PHYSICS |
| Start date | 04/01/2026 |
| Abstract | Non-technical Abstract: This project offers an integrated research and education effort centered on programmable quantum materials engineered through the controlled stacking of atomically thin layers. By arranging layers in designed patterns, the project reveals how structure at the nanoscale shapes the material behavior. The research addresses fundamental questions in quantum matter by using a flexible platform to explore tunable quantum states, introducing new ways to program quantum interacti |
| Source | NSF Awards |
$799/mo
Try NSFGrants →