LEAPS-MPS: Correlated Methods for Correlated Phases — NSF Award to Hofstra University (NY, $247,996)
NON-TECHNICAL SUMMARY A deep understanding of how electrons behave in materials has powered some of the most transformative technologies of modern life, from personal computing and mobile devices to weather prediction and artificial intelligence. These advances were made possible through breakthroughs in semiconductor
| Award title | LEAPS-MPS: Correlated Methods for Correlated Phases |
|---|---|
| Award ID | 2532734 |
| Awardee | Hofstra University |
| City | HEMPSTEAD |
| State | NY |
| Amount obligated | $247,996 |
| Principal investigator | Yubo Yang |
| Program | OFFICE OF MULTIDISCIPLINARY AC |
| Start date | 10/01/2025 |
| Abstract | NON-TECHNICAL SUMMARY A deep understanding of how electrons behave in materials has powered some of the most transformative technologies of modern life, from personal computing and mobile devices to weather prediction and artificial intelligence. These advances were made possible through breakthroughs in semiconductor technology, for example the invention of the transistor. Today, researchers are exploring a new class of semiconductor interfaces, known as two-dimensional "moiré materials", that |
| Source | NSF Awards |
$799/mo
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