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W4309393119 endingPage "2208615" @default.
W4309393119 startingPage "2208615" @default.
W4309393119 abstract "Transition metal dichalcogenides (TMDs) are regarded as promising cathode materials for zinc-ion storage owing to their large interlayer spacings. However, their capabilities are still limited by sluggish kinetics and inferior conductivities. In this study, a facile one-pot solvothermal method is exploited to vertically plant piezoelectric 1T MoSe2 nanoflowers on carbon cloth (CC) to fabricate crystallographically textured electrodes. The self-built-in electric field owing to the intrinsic piezoelectricity during the intercalation/deintercalation processes can serve as an additional piezo-electrochemical coupling accelerator to enhance the migration of Zn2+. Moreover, the expanded interlayer distance (9–10 Å), overall high hydrophilicity, and conductivity of the 1T phase MoSe2 also promoted the kinetics. These advantages endow the tailored 1T MoSe2/CC nanopiezocomposite with feasible Zn2+ diffusion and desirable electrochemical performances at room and low temperatures. Moreover, 1T MoSe2/CC-based quasi-solid-state zinc-ion batteries are constructed to evaluate the potential of the proposed material in low-temperature flexible energy storage devices. This work expounds the positive effect of intrinsic piezoelectricity of TMDs on Zn2+ migration and further explores the availabilities of TMDs in low-temperature wearable energy-storage devices." @default.
W4309393119 created "2022-11-26" @default.
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W4309393119 date "2022-12-18" @default.
W4309393119 modified "2023-10-16" @default.
W4309393119 title "Piezoelectric 1T Phase MoSe <sub>2</sub> Nanoflowers and Crystallographically Textured Electrodes for Enhanced Low‐Temperature Zinc‐Ion Storage" @default.
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W4309393119 doi "https://doi.org/10.1002/adma.202208615" @default.
W4309393119 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/36401606" @default.
W4309393119 hasPublicationYear "2022" @default.
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