Super‐aligned carbon nanotube films as current collectors for lightweight and flexible lithium ion batteries
Advanced Functional Materials, 2013•Wiley Online Library
Carbon nanotube (CNT) current collectors with excellent flexibility, extremely low density
(0.04 mg cm− 2), and tunable thickness are fabricated by cross‐stacking continuous CNT
films drawn from super‐aligned CNT arrays. Compared with metal current collectors, better
wetting, stronger adhesion, greater mechanical durability, and lower contact resistance are
demonstrated at the electrode/CNT interface. Electrodes with CNT current collectors show
improvements in cycling stability, rate capability, and gravimetric energy density over those …
(0.04 mg cm− 2), and tunable thickness are fabricated by cross‐stacking continuous CNT
films drawn from super‐aligned CNT arrays. Compared with metal current collectors, better
wetting, stronger adhesion, greater mechanical durability, and lower contact resistance are
demonstrated at the electrode/CNT interface. Electrodes with CNT current collectors show
improvements in cycling stability, rate capability, and gravimetric energy density over those …
Abstract
Carbon nanotube (CNT) current collectors with excellent flexibility, extremely low density (0.04 mg cm−2), and tunable thickness are fabricated by cross‐stacking continuous CNT films drawn from super‐aligned CNT arrays. Compared with metal current collectors, better wetting, stronger adhesion, greater mechanical durability, and lower contact resistance are demonstrated at the electrode/CNT interface. Electrodes with CNT current collectors show improvements in cycling stability, rate capability, and gravimetric energy density over those with metal current collectors. These results suggest that CNT films can function as a promising type of current collector for lightweight and flexible lithium ion batteries with high energy density.
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