机译:通过电解质盐选择限制Polysulfi des在Li-S电池中的溶解度
Pacific Northwest Natl Lab JCESR Richland WA 99352 USA;
Pacific Northwest Natl Lab JCESR Richland WA 99352 USA;
Pacific Northwest Natl Lab JCESR Richland WA 99352 USA;
Argonne Natl Lab JCESR Argonne IL 60439 USA;
Pacific Northwest Natl Lab JCESR Richland WA 99352 USA;
Argonne Natl Lab JCESR Argonne IL 60439 USA;
Pacific Northwest Natl Lab JCESR Richland WA 99352 USA;
Argonne Natl Lab JCESR Argonne IL 60439 USA;
Pacific Northwest Natl Lab JCESR Richland WA 99352 USA;
Pacific Northwest Natl Lab JCESR Richland WA 99352 USA;
Pacific Northwest Natl Lab JCESR Richland WA 99352 USA;
Pacific Northwest Natl Lab JCESR Richland WA 99352 USA;
机译:预测硫的溶解度:基于COSMO-RS的方法来研究LI-S电池电解质
机译:一种LiFSI-LiTFSI二元盐电解质,可实现高容量和循环稳定性的Li-S电池
机译:Operando XRD捕获锂硫电池中的可溶性多硫中间体
机译:LI-S电池阻抗反应对电解质II - 中端阶段的多硫化物溶解度
机译:LI-S电池不同电解质条件下锂阳极中刚性形成的原位光学显微镜研究
机译:Li-S电池中具有常规碳酸盐基电解质的高性能C / S复合阴极
机译:预测硫的溶解度:一种基于COSMO-RS的方法研究Li-S电池电解液