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Jahn–Teller distortions boost the ultrahigh areal capacity and cycling robustness of holey NiMn-hydroxide nanosheets for flexible energy storage devices

Ruyi Chen, Jialu Xue, Xiaoliang Gao, Chenyang Yu, Qiang Chen, Jinyuan Zhou, Gengzhi Sun, Wei Huang

2020Nanoscale34 citationsDOIOpen Access PDF

Abstract

Flexible energy storage devices with ultrahigh areal capacity and excellent cycling stability are highly desired for portable and wearable electronics. Bimetal hydroxides with low crystallinity are preferred as electrode materials due to their advantageous features of high electrochemical performance, rapid ion diffusion and high structure stability enabled by lattice disorder. Herein, holey NiMn-hydroxide (NiMn-OH) nanosheets with abundant lattice disorder induced by Jahn-Teller distortion are grown vertically on carbon cloth and their loading level reaches as high as 3.27 mg cm-2. The obtained NiMn-OH nanosheets demonstrate a superior capacity of 881 μAh cm-2 at 3 mA cm-2 and outstanding rate capability (66.4% capacity retained at 30 mA cm-2). The flexible all-solid hybrid device (NiMn-OH//Fe2O3) delivers a high energy density of 573.8 μW h cm-2 at a power density of 2.4 mW cm-2 and more importantly exhibits good cycling stability with 90.1% retained after 10 000 cycles and mechanical robustness. This proof-of-principle investigation is opening up a viable way to develop high performance electrodes for flexible energy storage devices.

Topics & Concepts

Materials scienceHydroxideNanotechnologyEnergy storageRobustness (evolution)Chemical engineeringChemistryPhysicsQuantum mechanicsPower (physics)EngineeringBiochemistryGeneSupercapacitor Materials and FabricationAdvanced battery technologies researchAdvancements in Battery Materials
Jahn–Teller distortions boost the ultrahigh areal capacity and cycling robustness of holey NiMn-hydroxide nanosheets for flexible energy storage devices | Litcius