In:
Energy & Environmental Science, Royal Society of Chemistry (RSC), Vol. 16, No. 10 ( 2023), p. 4670-4678
Kurzfassung:
Electrochemical ion insertion/extraction induces the periodical volume change, which causes fatigue and capacity decay of Zn-ion batteries, but the lack of quantitative understanding of the volume change remains a great challenge to the rational design of high-stability cathodes. Herein, we report an operando digital image correlation (DIC)-based technique applied to the investigation of the chemical strain of the CNT/VOOH composite cathode with pure VOOH for comparison. In combination with an electrochemical–mechanical coupling model, the chemical strain evolution with time (capacity) and residual chemical strain with cycle are quantified and the partial molar volumes of Zn 2+ in the two cathodes are estimated. The results indicate that the partial molar volume of Zn 2+ is obviously reduced by the introduction of CNTs, yielding smaller strains in the CNT/VOOH composite compared to that in pure VOOH, thereby conferring the long-term stability of CNT/VOOH. Specifically, the CNT/VOOH composite cathode delivers a high specific capacity of 322 mA h g −1 at 20 A g −1 and exhibits ultra-long cycle life at 10 A g −1 with 206 mA h g −1 retained after 8500 cycles.
Materialart:
Online-Ressource
ISSN:
1754-5692
,
1754-5706
Sprache:
Englisch
Verlag:
Royal Society of Chemistry (RSC)
Publikationsdatum:
2023
ZDB Id:
2439879-2
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