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Abstract
AbstractSolid polymer electrolyte (SPE) may provide a path for next generation high‐performance, hazard‐free lithium ion batteries. However, the low lithium ion transference number (tLi+) and electrolyte conductivity limit device performance. In this study, a diblock copolymer with a polycarbonate first block and poly(sulfonated styrene) second block has been synthesized and characterized for conductivity and shows improved tLi+. The low dissociation of lithium salts from the tethered sulfonate anion was overcome by incorporating plasticizers. The diblock SPE material had room temperature conductivity of up to 1.95 ⋅ 10−6 S/cm, and lithium transference number of up to 0.83 with the tethered sulfonate anion.
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