Advancing Trivalent Indium-Based Battery Systems: From Plating Behavior to Ion Insertion C — NSF Award to University of Puerto Ric
The landscape of modern energy storage is evolving rapidly, necessitating advances in battery technologies. Traditional lithium-ion batteries face challenges related to resource scarcity, safety concerns, and environmental impacts. A lithium ion transfers only one electron during each reaction. Recently, alternative me
| Award title | Advancing Trivalent Indium-Based Battery Systems: From Plating Behavior to Ion Insertion C |
|---|---|
| Award ID | 2434152 |
| Awardee | University of Puerto Rico-Rio Piedras |
| City | SAN JUAN |
| State | PR |
| Amount obligated | $380,701 |
| Principal investigator | Xianyong Wu |
| Program | EchemS-Electrochemical Systems |
| Start date | 03/01/2025 |
| Abstract | The landscape of modern energy storage is evolving rapidly, necessitating advances in battery technologies. Traditional lithium-ion batteries face challenges related to resource scarcity, safety concerns, and environmental impacts. A lithium ion transfers only one electron during each reaction. Recently, alternative metals that can transfer three electrons during each reaction and use water-based electrolytes have emerged as compelling battery candidates. Indium is one of these emerging battery |
| Source | NSF Awards |
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