Air-stable layered structured cathodes with high voltage and good cycling stability are highly desired for the practical application of Na-ion batteries.Herein,we report a P2-Na_(2/3)Ni_(2/3)Te_(1/3)O_(2) cathode that...Air-stable layered structured cathodes with high voltage and good cycling stability are highly desired for the practical application of Na-ion batteries.Herein,we report a P2-Na_(2/3)Ni_(2/3)Te_(1/3)O_(2) cathode that is stable in ambient air with an average operating voltage of~3.8 V,demonstrating excellent cycling stability with a capacity retention of more than 92.7%after 500 cycles at 20 mA g^(-1) and good rate capability with 91.9%capacity utilization at 500 mA g^(-1) with respect to capacity at 5 mA g^(-1) between 2.0 and 4.0 V.When the upper cutoff voltage is increased to 4.4 V,P2-Na_(2/3)Ni_(2/3)Te_(1/3)O_(2) delivers a reversible capacity of 71.9 mAh g^(-1) and retains 91.8%of the capacity after 100 cycles at 20 mA g^(-1).The charge compensation during charge/discharge is mainly due to the redox couple of Ni^(2+)/Ni^(3+)in the host with a small amount of contribution from oxygen.The stable structure of the material without phase transformation and with small volume change during charge-discharge allows it to give excellent cycle performance especially when the upper cutoff voltage is not higher than 4.2 V.展开更多
开发匹配高电压正极的锂金属电池是实现高能量存储系统的关键.因此,研发可以同时为锂金属负极和高电压正极产生稳定界面相的先进电解液非常必要.LiNO_(3)作为高效的固体电解质界面相添加剂被广泛应用于醚基电解液中,然而其在碳酸脂类电...开发匹配高电压正极的锂金属电池是实现高能量存储系统的关键.因此,研发可以同时为锂金属负极和高电压正极产生稳定界面相的先进电解液非常必要.LiNO_(3)作为高效的固体电解质界面相添加剂被广泛应用于醚基电解液中,然而其在碳酸脂类电解液中的低溶解性严重限制了其在高压锂金属电池中的应用.本文利用磷酸三甲酯助溶剂提高LiNO_(3)在碳酸乙基甲酯/氟代碳酸乙烯酯电解液中的溶解度,并赋予电解液阻燃性能.此外,通过添加双草酸硼酸锂(LiBOB)进一步提高正负极的界面稳定性.结果表明,该电解液对锂金属负极和高电压层状氧化物正极均具有较高的兼容性.在2.8–4.3 V电压范围内,Li||LiCoO_(2)和Li||LiNi_(0.8)Co_(0.1)Mn_(0.1)O_(2)(NCM811)电池在1.2 mA cm^(-2)电流密度下循环300周后的容量保持率分别为80.2%和84.2%.更令人惊喜的是,负/正极容量比为3.33的Li||NCM811电池在相同的充放电条件下循环150周后的容量保持率仍高达~80%.本论文对富含LiNO_(3)的阻燃型高压电解液的研究将为通过界面相调控研发安全的高比能锂金属电池提供理论指导.展开更多
基金supported by National Natural Science Foundation of China(Grant No.52100084)Shenzhen Natural Science Fund(the Stable Support Plan Program GXWD20201230155427003-20200824094017001).
文摘Air-stable layered structured cathodes with high voltage and good cycling stability are highly desired for the practical application of Na-ion batteries.Herein,we report a P2-Na_(2/3)Ni_(2/3)Te_(1/3)O_(2) cathode that is stable in ambient air with an average operating voltage of~3.8 V,demonstrating excellent cycling stability with a capacity retention of more than 92.7%after 500 cycles at 20 mA g^(-1) and good rate capability with 91.9%capacity utilization at 500 mA g^(-1) with respect to capacity at 5 mA g^(-1) between 2.0 and 4.0 V.When the upper cutoff voltage is increased to 4.4 V,P2-Na_(2/3)Ni_(2/3)Te_(1/3)O_(2) delivers a reversible capacity of 71.9 mAh g^(-1) and retains 91.8%of the capacity after 100 cycles at 20 mA g^(-1).The charge compensation during charge/discharge is mainly due to the redox couple of Ni^(2+)/Ni^(3+)in the host with a small amount of contribution from oxygen.The stable structure of the material without phase transformation and with small volume change during charge-discharge allows it to give excellent cycle performance especially when the upper cutoff voltage is not higher than 4.2 V.
基金support by Guang Dong Basic and Applied Basic Research Foundation (2021A1515111008)。
文摘开发匹配高电压正极的锂金属电池是实现高能量存储系统的关键.因此,研发可以同时为锂金属负极和高电压正极产生稳定界面相的先进电解液非常必要.LiNO_(3)作为高效的固体电解质界面相添加剂被广泛应用于醚基电解液中,然而其在碳酸脂类电解液中的低溶解性严重限制了其在高压锂金属电池中的应用.本文利用磷酸三甲酯助溶剂提高LiNO_(3)在碳酸乙基甲酯/氟代碳酸乙烯酯电解液中的溶解度,并赋予电解液阻燃性能.此外,通过添加双草酸硼酸锂(LiBOB)进一步提高正负极的界面稳定性.结果表明,该电解液对锂金属负极和高电压层状氧化物正极均具有较高的兼容性.在2.8–4.3 V电压范围内,Li||LiCoO_(2)和Li||LiNi_(0.8)Co_(0.1)Mn_(0.1)O_(2)(NCM811)电池在1.2 mA cm^(-2)电流密度下循环300周后的容量保持率分别为80.2%和84.2%.更令人惊喜的是,负/正极容量比为3.33的Li||NCM811电池在相同的充放电条件下循环150周后的容量保持率仍高达~80%.本论文对富含LiNO_(3)的阻燃型高压电解液的研究将为通过界面相调控研发安全的高比能锂金属电池提供理论指导.
