Crystal Phase Conversion on Cobalt Oxide: Stable Adsorption toward LiO 2 for Film-Like Discharge Products Generation in Li-O 2 Battery

Regulating the structure and morphology of discharge product is one of the key points for developing high performance Li-O batteries (LOBs). In this study, the reaction mechanism of LOB is successfully controlled by the regulated fine structure of cobalt oxide through tuning the crystallization proc...

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Veröffentlicht in:Small (Weinheim an der Bergstrasse, Germany) Germany), 2022-07, Vol.18 (26), p.e2201150
Hauptverfasser: Zhang, Shuting, Qiu, Jiachen, Zhang, Yu, Lin, Yuran, Liu, Rong, Yuan, Mengwei, Sun, Genban, Nan, Caiyun
Format: Artikel
Sprache:eng
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Zusammenfassung:Regulating the structure and morphology of discharge product is one of the key points for developing high performance Li-O batteries (LOBs). In this study, the reaction mechanism of LOB is successfully controlled by the regulated fine structure of cobalt oxide through tuning the crystallization process. It is demonstrated that the cobalt oxide with lower crystallinity shows stronger affinity toward LiO , inducing the growth of film-like LiO on the electrode surface and inhibiting the further conversion to Li O . The batteries catalyzed by the lower crystallinity cobalt oxide hollow spheres which pyrolyzed from ZIF-67 at 260 °C (ZIF-67-260), go through the generation and decomposition of amorphous film-like LiO , which significantly reduces the charge overpotential and improves the cycle life. By contrast, the ZIF-67 hollow spheres pyrolyzed at 320 °C (ZIF-67-320) with better crystallinity are more likely to go through the solution-mediated mechanism and induce the aggregation of discharge product, resulting in the sluggish kinetics and limited performance. The combined density functional theory data also directly support the strong relationship between the adsorption toward LiO by the electrocatalyst and the battery performance. This work provides an important way for tuning the intermediate and constructing the high-performance battery system.
ISSN:1613-6810
1613-6829
DOI:10.1002/smll.202201150