Improving high-energy lithium-ion batteries with carbon filler

Improving high-energy lithium-ion batteries with carbon filler

Thick electrodes with single-walled carbon nanotubes (SWCNTs) for scalable energy storage systems. Credit: Zhengyu Ju and Guihua Yu Lithium-ion batteries are the major rechargeable power source for many portable devices as well as electric vehicles, but their use is limited, because they do not provide high power output while simultaneously allowing reversible energy storage. Research reported in Applied Physics Reviews aims to offer a solution by showing how the inclusion of conductive fillers improves battery performance. The optimum battery design involves thick electrode structures. This enhances the energy density , but the design suffers from poor lithium-ion transport, a key step in the functioning of these electrodes. Various improvement techniques have been tried, including building vertically aligned channels or creating pores of the proper size to facilitate transport of the lithium ions. Another approach involves the use of fillers made of carbon that conduct electricity. This study considered three types of fillers: single-walled carbon nanotubes (SWCNTs), graphene nanosheets, and a substance known as Super P, a type of carbon black particles produced during oxidation of petroleum precursors. Super P is the most commonly used conductive filler in lithium-ion batteries . The fillers were added to a type of electrode […]

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