功能材料
功能材料
공능재료
JOURNAL OF FUNCTIONAL MATERIALS
2009年
11期
1938-1941
,共4页
导电剂%碳纳米管%Li_4Ti_5O_(12)%锂离子电池
導電劑%碳納米管%Li_4Ti_5O_(12)%鋰離子電池
도전제%탄납미관%Li_4Ti_5O_(12)%리리자전지
conductive additive%carbon nanotube%Li_4Ti_5O_(12)%lithium ion battery
采用一种较为实用的调浆方法,考察了碳纳米管与乙炔黑的复合物(CNTs/AB)导电剂、乙炔黑(AB)导电剂和碳纳米管(CNTs)导电剂对Li_4Ti_5O_(12)电化学性能的影响,并用恒流充放电、扫描电子显微镜(SEM)和交流阻抗(AC)对添加上述3种导电剂制备得到的电极片进行研究.结果表明,采用该调浆流程能够克服CNTs在使用时出现的团聚问题,CNTs/AB复合物在改善Li_4Ti_5O_(12)电化学性能尤其在容量发挥和倍率性能方面比单一AB和CNTs具有明显优势.CNTs/AB复合物中两者的质量百分比为1:2~1:1时,0.5C时,Li_4Ti_5O_(12)电极的首次放电容量可高达157.0mAh/g,10.0C时,其放电容量可达到128.3mAh/g.与单一导电剂AB和CNTs相比,CNTs与AB复合使用时,由于CNTs的高长径比和良好导电性能使之能够起到"桥梁"作用把部分没有与活性物质充分接触的颗粒状导电剂AB与活性物质连接起来,因此两者的有机结合提高了CNTs/AB与活性材料的接触面积,使电极片能够形成有效的导电网络,有利于Li_4Ti_5O_(12)导电性能的提高.
採用一種較為實用的調漿方法,攷察瞭碳納米管與乙炔黑的複閤物(CNTs/AB)導電劑、乙炔黑(AB)導電劑和碳納米管(CNTs)導電劑對Li_4Ti_5O_(12)電化學性能的影響,併用恆流充放電、掃描電子顯微鏡(SEM)和交流阻抗(AC)對添加上述3種導電劑製備得到的電極片進行研究.結果錶明,採用該調漿流程能夠剋服CNTs在使用時齣現的糰聚問題,CNTs/AB複閤物在改善Li_4Ti_5O_(12)電化學性能尤其在容量髮揮和倍率性能方麵比單一AB和CNTs具有明顯優勢.CNTs/AB複閤物中兩者的質量百分比為1:2~1:1時,0.5C時,Li_4Ti_5O_(12)電極的首次放電容量可高達157.0mAh/g,10.0C時,其放電容量可達到128.3mAh/g.與單一導電劑AB和CNTs相比,CNTs與AB複閤使用時,由于CNTs的高長徑比和良好導電性能使之能夠起到"橋樑"作用把部分沒有與活性物質充分接觸的顆粒狀導電劑AB與活性物質連接起來,因此兩者的有機結閤提高瞭CNTs/AB與活性材料的接觸麵積,使電極片能夠形成有效的導電網絡,有利于Li_4Ti_5O_(12)導電性能的提高.
채용일충교위실용적조장방법,고찰료탄납미관여을결흑적복합물(CNTs/AB)도전제、을결흑(AB)도전제화탄납미관(CNTs)도전제대Li_4Ti_5O_(12)전화학성능적영향,병용항류충방전、소묘전자현미경(SEM)화교류조항(AC)대첨가상술3충도전제제비득도적전겁편진행연구.결과표명,채용해조장류정능구극복CNTs재사용시출현적단취문제,CNTs/AB복합물재개선Li_4Ti_5O_(12)전화학성능우기재용량발휘화배솔성능방면비단일AB화CNTs구유명현우세.CNTs/AB복합물중량자적질량백분비위1:2~1:1시,0.5C시,Li_4Ti_5O_(12)전겁적수차방전용량가고체157.0mAh/g,10.0C시,기방전용량가체도128.3mAh/g.여단일도전제AB화CNTs상비,CNTs여AB복합사용시,유우CNTs적고장경비화량호도전성능사지능구기도"교량"작용파부분몰유여활성물질충분접촉적과립상도전제AB여활성물질련접기래,인차량자적유궤결합제고료CNTs/AB여활성재료적접촉면적,사전겁편능구형성유효적도전망락,유리우Li_4Ti_5O_(12)도전성능적제고.
A practical method of preparation of electrode paste mixture was adopted to evaluated the carbon nanotubes/acetylene black (CNTs/AB) composite,acetylene black (AB) and carbon nanotubes (CNTs) as conductive additives impacting on the electrochemical performance of Li_4Ti_5O_(12) electrode. The obtained Li_4Ti_5O_(12) electrodes were characterized by constant current charge and discharge tests, scanning electron microscopy (SEM) and AC impedance (AC). The results indicate that the adopted method of preparation of electrode paste mixture could make the CNTs have an effectively good dispersion,and the Li_4Ti_5O_(12) electrode with CNTs/AB composite as conductive additive manifested relatively better electrochemical performance,and in particular,high discharge capacity and rate capability than single AB and CNTs. When the weight ratio of CNTs and AB in the CNTs/AB composite was between 1:2 and 1:l,at 0. 5C,the first discharge capacity of the Li_4Ti_5O_(12) electrode was 157 mAh/g,even at 10. 0C,the discharge capacity can reach 128. 3mAh/g. Compared with single conductive additive of AB and CNTs,the CNTs/AB composite can make the Li_4Ti_5O_(12) electrode form more validity of its conductive networks that are preferable to the electronic transfer. The reason is that nano-size AB particles that group around Li_4Ti_5O_(12) particles often make no actual contact with the Li_4Ti_5O_(12) particles,but the CNTs act like bridges that can connect them,so,the CNTs/AB composite has bigger contact area with Li_4Ti_5O_(12) particles than single AB and CNTs, which make Li_4Ti_5O_(12) electrode form valid conductive networks and improve the electronic conductivity of Li_4Ti_5O_(12).
