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Akridge, James R.; Mikhaylik, Yuriy V.; White, Neal
Solid state ionics, 11/2004, Letnik: 175, Številka: 1Journal Article
The investigation focused on sulfur chemistry and application to the development of rechargeable batteries with energy density exceeding 250 W h/kg, a rate capability comparable to or exceeding water-based electrolyte systems, and operation at temperatures up to −60 °C. The study addressed sulfur electrochemical utilization limits, low-temperature performance process limits, and rate capability limits.
