Journal
JOURNAL OF POWER SOURCES
Volume 528, Issue -, Pages -Publisher
ELSEVIER
DOI: 10.1016/j.jpowsour.2022.231207
Keywords
Lithium-ion batteries; Current collector; Lightweight; Electroless copper deposition; Interfacial resistance
Funding
- National Natural Science Foundation of China [21975163]
- China Postdoctoral Sci-ence Foundation [2020M682875]
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This article fabricates lightweight copper-coated polyimide current collectors with high electrical conductivity and low area density using a facile electroless copper deposition method. Compared with traditional copper foil current collectors, lithium titanate anodes equipped with the coated current collectors reduce the inactive component mass ratio and improve the gravimetric capacity. The rough surface morphology of the deposited copper layers reduces the electrode layer/current collector interfacial resistance, resulting in lower internal resistance and better rate capability.
Large inactive component mass ratio and internal resistance are two critical challenges in further realizing high energy and power density lithium-ion batteries. Herein, lightweight copper coated polyimide (PI@Cu) current collectors with a high electrical conductivity (2.25 x 10(5) S cm(-1)) and low area density (1.99 mg cm(-2)) are fabricated via a facile electroless copper deposition method. Compared with the commercial Cu foil current collector, lithium titanate anodes equipped with PI@Cu current collectors decrease the inactive component mass ratio and improve the gravimetric capacity based on the whole mass of the electrode. Meanwhile, the rough surface morphology of deposited Cu layers reduces the electrode layer/current collector interfacial resistance, resulting in a lower internal resistance and better rate capability. PI@Cu composite films are promising alternatives to the traditional copper foil current collectors for high energy density and power density lithium-ion batteries.
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