Data-driven exploration of dissolution and precipitation of high entropy metal oxide nanop — NSF Award to Florida State University
NON-TECHNICAL SUMMARY This award supports fundamental research aimed at improving our understanding and predictive capabilities regarding the formation and degradation of high-entropy metal oxides (HEMOs) in aqueous environments. HEMOs typically consist of four or more metal elements in near-equimolar ratios and are at
| Award title | Data-driven exploration of dissolution and precipitation of high entropy metal oxide nanop |
|---|---|
| Award ID | 2513268 |
| Awardee | Florida State University |
| City | TALLAHASSEE |
| State | FL |
| Amount obligated | $344,349 |
| Principal investigator | Bin Ouyang |
| Program | CONDENSED MATTER & MAT THEORY |
| Start date | 10/01/2025 |
| Abstract | NON-TECHNICAL SUMMARY This award supports fundamental research aimed at improving our understanding and predictive capabilities regarding the formation and degradation of high-entropy metal oxides (HEMOs) in aqueous environments. HEMOs typically consist of four or more metal elements in near-equimolar ratios and are at the forefront of innovation in energy technologies, including batteries, fuel cells, and catalysts. However, their synthesis and aqueous stability remains poorly understood. To ad |
| Source | NSF Awards |
$799/mo
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