CAREER: Unlocking Spin Topological States in 1D Molecular Systems for Highly Efficient, Tu — NSF Award to University of Miami (FL,
Non-Technical description: Molecular electronics seeks to harness atomically precise molecular structures to enable next-generation miniaturized electronic and quantum technologies, offering novel properties and functions unattainable with conventional materials. However, a central, long-standing challenge remains: how
| Award title | CAREER: Unlocking Spin Topological States in 1D Molecular Systems for Highly Efficient, Tu |
|---|---|
| Award ID | 2540861 |
| Awardee | University of Miami |
| City | CORAL GABLES |
| State | FL |
| Amount obligated | $562,442 |
| Principal investigator | Kun Wang |
| Program | ELECTRONIC/PHOTONIC MATERIALS |
| Start date | 04/01/2026 |
| Abstract | Non-Technical description: Molecular electronics seeks to harness atomically precise molecular structures to enable next-generation miniaturized electronic and quantum technologies, offering novel properties and functions unattainable with conventional materials. However, a central, long-standing challenge remains: how to design molecular materials that can support efficient charge transport across long distances? This project will tackle this challenge through a new approach that leverages rati |
| Source | NSF Awards |
$799/mo
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