电池
電池
전지
BATTERY BIMONTHLY
2014年
1期
6-8
,共3页
任现平%刘桂成%徐国峰%李建玲
任現平%劉桂成%徐國峰%李建玲
임현평%류계성%서국봉%리건령
锂空气电池%过渡金属氧化物%二氧化锰(MnO2)%催化性能
鋰空氣電池%過渡金屬氧化物%二氧化錳(MnO2)%催化性能
리공기전지%과도금속양화물%이양화맹(MnO2)%최화성능
lithium-air battery%transition metal oxide%manganese dioxide(MnO2)%catalytic performance
比较了MnO2、V2 O5、Sb2 O3及CeO2等4种不同过渡金属氧化物用作锂空气电池催化剂的催化效果;研究MnO2晶型对锂空气电池性能的影响。多孔纳米球Birnessite-type MnO2(Bir-MnO2)的催化性能最好。当电极中Bir-MnO2、Super P石墨和聚偏氟乙烯的质量比为1∶3∶1时,以0.05 mA/cm2的电流密度在2.0~4.5 V循环,制备的锂空气电池的放电比容量可达832.60 mAh/g,第5次循环的容量保持率高于52%。
比較瞭MnO2、V2 O5、Sb2 O3及CeO2等4種不同過渡金屬氧化物用作鋰空氣電池催化劑的催化效果;研究MnO2晶型對鋰空氣電池性能的影響。多孔納米毬Birnessite-type MnO2(Bir-MnO2)的催化性能最好。噹電極中Bir-MnO2、Super P石墨和聚偏氟乙烯的質量比為1∶3∶1時,以0.05 mA/cm2的電流密度在2.0~4.5 V循環,製備的鋰空氣電池的放電比容量可達832.60 mAh/g,第5次循環的容量保持率高于52%。
비교료MnO2、V2 O5、Sb2 O3급CeO2등4충불동과도금속양화물용작리공기전지최화제적최화효과;연구MnO2정형대리공기전지성능적영향。다공납미구Birnessite-type MnO2(Bir-MnO2)적최화성능최호。당전겁중Bir-MnO2、Super P석묵화취편불을희적질량비위1∶3∶1시,이0.05 mA/cm2적전류밀도재2.0~4.5 V순배,제비적리공기전지적방전비용량가체832.60 mAh/g,제5차순배적용량보지솔고우52%。
The catalytic performance of 4 kinds of transition metal oxides such as MnO2 ,V2 O5 ,Sb2 O3 and CeO2 used as catalyst of lithium-air battery was compared;effect of crystal type of MnO2 to the performance of lithium-air battery was studied. Porous nano-spheres birnessite-type manganese dioxide(Bir-MnO2 )had the best catalytic performance. While the mass ratio of Bir-MnO2 ,Super P graphite and poly(vinylidene fluoride)in the electrode was 1∶3∶1 ,when cycled in 2.0~4.5 V with the current density of 0.05 mA/cm2 ,the specific discharge capacity of the prepared lithium-air battery could reach to 832.60 mAh/g,the capacity retention rate was higher than 52% in the 5th cycle.
