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W4353016860 endingPage "16767" @default.
W4353016860 startingPage "16755" @default.
W4353016860 abstract "Rational design and structural regulation of hybrid nanomaterials with superior electrochemical performance are crucial for developing sustainable energy storage platforms. Among these materials, NiCo-layered double hydroxides (NiCo-LDHs) demonstrate an exceptional charge storage capabilities owing to their tunable 2D lamellar structure, large interlayer spacing, and rich redox electrochemically active sites. However, NiCo-LDHs still suffer from sever agglomeration of their particles with limited charge transfer rates, resulting in an inadequate rate capability. In this study, bimetallic ZnCo-metal organic framework (MOF) tripods were grown on the surface of NiCo-LDH nanowires, which significantly reduced the self-agglomeration and stacking of the NiCo-LDH nanowire arrays, offering more accessible active sites for charge transfer and shortening the path for ion diffusion. The fabricated hybrid ZnCo-MOF@NiCo-LDH and its individual counterparts were tested as supercapacitor electrodes. The ZnCo-MOF@NiCo-LDH electrode demonstrated a remarkable specific capacitance of 1611 F g-1 at 2 A g-1 with an enhanced rate capability of 66% from 2 to 20 A g-1. Moreover, an asymmetric all solid-state supercapacitor device was constructed using ZnCo-MOF@NiCo-LDH and palm tree-derived activated carbon (P-AC) as positive and negative poles, respectively. The constructed device can store a high specific energy of 44.5 Wh Kg-1 and deliver a specific power of 876.7 W Kg-1 with outstanding Columbic efficiency over 10,000 charging/discharging cycles at 15 A g-1." @default.
W4353016860 created "2023-03-23" @default.
W4353016860 creator A5004119495 @default.
W4353016860 creator A5045415264 @default.
W4353016860 creator A5081983963 @default.
W4353016860 date "2023-03-22" @default.
W4353016860 modified "2023-10-06" @default.
W4353016860 title "Optimized Fabrication of Bimetallic ZnCo Metal–Organic Framework at NiCo-Layered Double Hydroxides for Multiple Storage and Capability Synergy All-Solid-State Supercapacitors" @default.
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W4353016860 doi "https://doi.org/10.1021/acsami.3c00087" @default.
W4353016860 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/36947435" @default.
W4353016860 hasPublicationYear "2023" @default.
W4353016860 type Work @default.
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