适用于锂氧电池的高容量碳基电极
, PP. 90-96
Keywords: 可充电电池,锂,氧,碳,多孔性,容量
Abstract:
以碳酸钠为催化剂,将间苯二酚与甲醛进行缩聚,所生成的气凝胶在800℃的惰性气氛中进行碳化以制备多孔的碳气凝胶。碳的多孔质地由改变凝胶前体中间苯二酚与催化剂的摩尔比来调节,摩尔比的范围为100~500。气凝胶和碳气凝胶的多孔结构以在绝对温度77K下进行的氮气的吸附–解吸附测量结果表征。已经发现,总孔隙度和碳的平均孔径随着凝胶前体的摩尔比的增加而增大。作为一种活性材料,碳气凝胶用于制造合成碳电极。合成碳电极的电化学性能以将其用作锂/氧电池的负极来进行测试。由静电充放电测量发现,随着摩尔比的增加,由碳气凝胶制造的锂/氧电池的比容量由716mA?h?g?1增加到2077mA?h?g?1。所得到的最初10次充/放电循环的电压分布图表明,这些碳样品具有出色的循环稳定性。
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