Graphitized Carbon Fibers as Multifunctional 3D Current Collectors for High Areal Capacity Li Anodes
The Li metal anode has long been considered as one of the most ideal anodes due to its high energy density. However, safety concerns, low efficiency, and huge volume change are severe hurdles to the practical application of Li metal anodes, especially in the case of high areal capacity. Here it is s...
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Veröffentlicht in: | Advanced materials (Weinheim) 2017-08, Vol.29 (29), p.n/a |
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Sprache: | eng |
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Zusammenfassung: | The Li metal anode has long been considered as one of the most ideal anodes due to its high energy density. However, safety concerns, low efficiency, and huge volume change are severe hurdles to the practical application of Li metal anodes, especially in the case of high areal capacity. Here it is shown that that graphitized carbon fibers (GCF) electrode can serve as a multifunctional 3D current collector to enhance the Li storage capacity. The GCF electrode can store a huge amount of Li via intercalation and electrodeposition reactions. The as‐obtained anode can deliver an areal capacity as high as 8 mA h cm−2 and exhibits no obvious dendritic formation. In addition, the enlarged surface area and porous framework of the GCF electrode result in lower local current density and mitigate high volume change during cycling. Thus, the Li composite anode displays low voltage hysteresis, high plating/stripping efficiency, and long lifespan. The multifunctional 3D current collector promisingly provides a new strategy for promoting the cycling lifespan of high areal capacity Li anodes.
Graphitized carbon fiber electrode is demonstrated to improve the cycling performance of high‐areal‐capacity Li anodes due to dual reaction types, reduced current density, and confined volume change. This Li anode can deliver a high areal capacity of 8 mA h cm−2 without Li dendrites and displays low voltage hysteresis, high plating/stripping efficiency, and long cycling lifespan. |
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ISSN: | 0935-9648 1521-4095 |
DOI: | 10.1002/adma.201700389 |