CAREER: Combining Electrode Engineering with Electrochemical Modeling to Enable Atmospheri — NSF Award to Yale University (CT, $26
The capture of carbon dioxide (CO2) directly from the atmosphere is emerging as a potential approach to climate change mitigation. However, the rapid separation and purification of CO2 from air can be very energy-intensive because of its low concentration (400 ppm). The development of highly energy-efficient CO2 captur
| Award title | CAREER: Combining Electrode Engineering with Electrochemical Modeling to Enable Atmospheri |
|---|---|
| Award ID | 2601469 |
| Awardee | Yale University |
| City | NEW HAVEN |
| State | CT |
| Amount obligated | $269,227 |
| Principal investigator | David Kwabi |
| Program | Interfacial Engineering Progra, EchemS-Electrochemical Systems |
| Start date | 10/01/2025 |
| Abstract | The capture of carbon dioxide (CO2) directly from the atmosphere is emerging as a potential approach to climate change mitigation. However, the rapid separation and purification of CO2 from air can be very energy-intensive because of its low concentration (400 ppm). The development of highly energy-efficient CO2 capture technology will enhance the sustainability, affordability, and commercial appeal of capturing CO2 and converting it into useful chemicals and products. Most incumbent CO2 capture |
| Source | NSF Awards |
$799/mo
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