Journal article
Unconventional thick cobalt telluride electrodes enable homogeneous ion flow for high capacity, fast and safe potassium storage
H Fan, L Zhang, Y Dai, R Zheng, Y Wang, H Arandiyan, Z Wang, H Sun, Y Liu
Nano Today | ELSEVIER SCI LTD | Published : 2024
Open access
Abstract
The demand for high-energy density, fast-charging, and safe potassium-ion batteries (PIBs) is crucial for large-scale applications in electric vehicles and grid systems. Despite the potential of thick electrode designs by a conventional technique (CTEs) to boost energy density, they often encounter challenges such as reduced capacity, limited cycling lifespan, and localized short circuits. Here, we present a novel cobalt telluride composite anode by a simple tellurization and subsequent heat reduction, featuring Co1.67Te2 nanoparticles uniformly embedded within an N-doped carbon layer on a trace amount of reduced graphene oxide (CT@NC/rGO). By constructing low tortuosity electrodes (LTEs), a..
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Grants
Awarded by Natural Science Foundation of Liaoning Province
Funding Acknowledgements
This study was financially supported by the National Natural Science Foundation of China (52171202, 52177208, 52071073). The authors acknowledge the Australian Research Council (DE230100327 and LP220200583). H.A. acknowledge the support from the DCCEEW International Clean Innovation Researcher Networks Grant (ICIRN000011).