Unusual pseudocapacitive lithium-ion storage on defective CoOnanosheets.

Nanotechnology

Electrochemistry Division, IMDEA Materials Institute, Calle Eric Kandel 2, Getafe, E-28906 Madrid, Spain.

Published: March 2022

Secondary lithium-ion batteries are restricted in large-scale applications including power grids and long driving electric vehicles owing to the low specific capacity of conventional intercalation anodes possessing sluggish Li-ion diffusion kinetics. Herein, we demonstrate an unusual pseudocapacitive lithium-ion storage on defective CoOnanosheet anodes for high-performance rechargeable batteries. Cobalt-oxide nanosheets presented here composed of various defects including vacancies, dislocations and grain boundaries. Unique 2D holey microstructure enabled efficient charge transport as well as provided room for volume expansions associated with lithiation-delithiation process. These defective anodes exhibited outstanding pseudocapacitance (up to 87%), reversible capacities (1490 mAh g@ 25 mA g), rate capability (592 mAh g@ 30 A g), stable cycling (85% after 500 cycles @ 1 A g) and columbic efficiency (∼100%). Exceptional Li-ion storage phenomena in defective CoOnanosheets is accredited to the pseudocapacitive nature of conversion reaction resulting from ultrafast Li-ion diffusion through various crystal defects. The demonstrated approach of defect-induced pseudocapacitance can also be protracted for various low-cost and/or eco-friendly transition metal-oxides for next-generation rechargeable batteries.

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Source
http://dx.doi.org/10.1088/1361-6528/ac54deDOI Listing

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