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Unlocking high capacities of graphite anodes for potassium-ion batteries.


ABSTRACT: Graphite is considered a promising candidate as the anode for potassium-ion batteries (KIBs). Here, we demonstrate a significant improvement in performance through the ball-milling of graphite. Electrochemical techniques show reversible K-intercalation into graphitic layers, with 65% capacity retention after 100 cycles from initial capacities and extended cycling beyond 200 cycles. Such an affinity of the graphite towards storage of K-ions is explained by means of SEM and Raman analyses. Graphite ball-milling results in a gentle mechanical exfoliation of the graphene layers and simultaneous defect formation, leading to enhanced electrochemical performance.

SUBMITTER: Carboni M 

PROVIDER: S-EPMC9065985 | biostudies-literature | 2019 Jul

REPOSITORIES: biostudies-literature

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Unlocking high capacities of graphite anodes for potassium-ion batteries.

Carboni Marco M   Naylor Andrew J AJ   Valvo Mario M   Younesi Reza R  

RSC advances 20190705 36


Graphite is considered a promising candidate as the anode for potassium-ion batteries (KIBs). Here, we demonstrate a significant improvement in performance through the ball-milling of graphite. Electrochemical techniques show reversible K-intercalation into graphitic layers, with 65% capacity retention after 100 cycles from initial capacities and extended cycling beyond 200 cycles. Such an affinity of the graphite towards storage of K-ions is explained by means of SEM and Raman analyses. Graphit  ...[more]

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