Cathode
申请

TUBALLBATT NMP

申请

TUBALL™单壁碳纳米管卓越的导电性能,仅需0.06%的添加量即可提供正极所需的导电性、附着力、安全性、倍率和循环特性,且是同类产品中是最好的。工业用多壁碳纳米管或导电炭黑的典型添加量,常常是单壁碳纳米管的10-50倍!TUBALL™单壁碳纳米管的超低添加量,可让锂离子电池制造商添加更多活性材料—在目前NCM和其他正极材料中可达99%,使正极能量密度最大化。在现代电动汽车的电池中加入100克TUBALL™,即可替代原配方中所需的3-4千克炭黑。

材料系统
高能量正极(NCM 811, NCM 622, NCM 523,NCA, LCO, LFP)
载体
NMP(N-甲基吡咯烷酮)、PVDF(聚偏氟乙烯)、其他
形状
分散体


자료 다운로드
Also available in:
english
SDS TUBALL BATT NMP 0.2 % PVDF EU ENG V18-2.PDF
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SDS TUBALL BATT NMP 0.4 % PVDF EU ENG V1-1.PDF
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News

We on WeChat
28 六月, 2019
A milestone on the way to mass-market EVs! Two leading Chinese manufacturers, Haiyi and East Chem, have launched the production of TUBALL™ BATT. With a combined annual capacity of 7,000 tonnes, they are paving the way for next-generation batteries. Congratulations! 🥳 Read more at https://ocsial.com/en/news/349/ #Battery #LIB #EV #Graphene #Nanotubes #China
28 六月, 2019
Nanoaugmented tires: better grip with extra durability thanks to graphene nanotubes #Autofact #Innovation #Mobility #TUBALL #Graphene #Nanotubes #Tires
25 二月, 2019
Tiny nanotubes can solve the main problem in the electric vehicles industry. Want to know how? Visit Kusumoto’s booth #W2-27 at the #BatteryJapan Expo in Tokyo from 27 February to 1 March. And don’t miss the presentation by Andrey Senyut on 28 February at 11:00. #Graphene #Nanotubes #Batteries #EV