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• W4386866919 abstract "The decarbonization of the electrical grid requires advancements in affordable, long-term energy storage to address the intermittency of energy sources like solar and wind, while the continued decarbonization of the transportation sector necessitates advancements in energy dense storage devices such as batteries, with low cost and made from abundant materials. Alkali metal-oxygen batteries can provide greater specific energy than Li-ion batteries and can potentially lower cost by reducing reliance on late transition metals like nickel and cobalt. In this talk, we share our recent work on molten-salt Li-O 2 1 and Na-O 2 2 batteries operating at 150-170 °C which can deliver high areal energy (33 mWh/cm 2 geo ) and power densities (19 mW/cm 2 geo ), with high energy efficiency (~90% at 5 mA/cm 2 geo ). We show that nitrate redox plays a critical role in these batteries, where the apparent four-electron oxygen reduction to form Li 2 O in Li-O 2 batteries is facilitated by the electrochemical reduction of nitrate to nitrite, and subsequent chemical oxidation of nitrite to nitrate by molecular oxygen. In Na-O 2 batteries, on the other hand, Na 2 O is further oxidized by O 2 to Na 2 O 2 to give an apparent two-electron oxygen reduction rection. We demonstrate the role of transition metal oxide catalysts for reducing the overpotential of nitrate redox in the positive electrode, as well as strategies for enhancing the power density and specific energy of these molten-salt metal-oxygen batteries. References (1) Zhu, Y. G.; Leverick, G.; Giordano, L.; Feng, S.; Zhang, Y.; Yu, Y.; Tatara, R.; Lunger, J. R.; Shao-Horn, Y. Nitrate-Mediated Four-Electron Oxygen Reduction on Metal Oxides for Lithium-Oxygen Batteries. Joule 2022 , 6 (8), 1887–1903. (2) Zhu, Y. G.; Leverick, G.; Accogli, A.; Gordiz, K.; Zhang, Y.; Shao-Horn, Y. A High-Rate and High-Efficiency Molten-Salt Sodium–Oxygen Battery. Energy Env. Sci 2022 , 15 , 4636–4646." @default.
• W4386866919 created "2023-09-20" @default.
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• W4386866919 date "2023-08-28" @default.
• W4386866919 modified "2023-09-27" @default.
• W4386866919 title "(Invited) High-Rate and High-Efficiency Molten Salt Li-O₂ and Na-O₂ Batteries Enabled by Nitrate Redox" @default.
• W4386866919 doi "https://doi.org/10.1149/ma2023-013769mtgabs" @default.
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