Collaborative Research: Design, kinetics, and reconfigurable assembly of multicomponent cr — NSF Award to Brandeis University (MA,
The goal of this project is to understand how to arrange microscopic particles, known as colloids, to create new materials with customizable properties. The arrangement of colloids at the microscopic level must be precisely specified to control the properties of the material as a whole. This problem can be solved by in
| Award title | Collaborative Research: Design, kinetics, and reconfigurable assembly of multicomponent cr |
|---|---|
| Award ID | 2506044 |
| Awardee | Brandeis University |
| City | WALTHAM |
| State | MA |
| Amount obligated | $390,000 |
| Principal investigator | William Rogers |
| Program | PMP-Particul&MultiphaseProcess |
| Start date | 08/01/2025 |
| Abstract | The goal of this project is to understand how to arrange microscopic particles, known as colloids, to create new materials with customizable properties. The arrangement of colloids at the microscopic level must be precisely specified to control the properties of the material as a whole. This problem can be solved by incorporating many different types of colloids to create a multicomponent material. However, achieving this in practice is difficult because there are many ways different types of co |
| Source | NSF Awards |
$799/mo
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