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Abstract An invar alloy@nitrogen doped carbon nanotubes (Fe–36Ni@NCNTS) material is synthesized and applied as a cathode catalyst in lithium-oxygen batteries. The Fe–36Ni@NCNTS holds a three-dimensional network structure, providing a specific… Click to show full abstract
Abstract An invar alloy@nitrogen doped carbon nanotubes (Fe–36Ni@NCNTS) material is synthesized and applied as a cathode catalyst in lithium-oxygen batteries. The Fe–36Ni@NCNTS holds a three-dimensional network structure, providing a specific surface area of 106.7 m2 g−1, which could offer numerous active sites and provide channels for mass transfer. Lithium-oxygen batteries assembled by Fe–36Ni@NCNTS exhibit enhanced performance, with a specific capacity of over 6500 mhA g−1 and more than 60 cycles at a restricted capacity of 500 mAh g−1. Moreover, the charge overpotential for Fe–36Ni@NCNTS electrodes is extremely low (ca. 1.15 V). This work provides a new strategy for efficient catalysts in lithium-oxygen batteries.
Journal Title: Journal of Alloys and Compounds
Year Published: 2020
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