Liguo Zhang scite author profile

To solve the problem of large volume change and low electronic conductivity of earth-abundant ilmenite used in rechargeable Na-ion batteries (SIBs), an anode of tiny ilmenite FeTiO nanoparticle embedded carbon nanotubes (FTO⊂CNTs) has been successfully proposed. By introducing a TiO shell on metal-organic framework (Fe-MOF) nanorods by sol-gel deposition and subsequent solid-state annealing treatment of these core-shell Fe-MOF@TiO, such well-defined FTO⊂CNTs are obtained. The achieved FTO⊂CNT electrode has several distinct advantages including a hollow interior in the hybrid nanostructure, fully encapsulated ultrasmall electroactive units, flexible conductive carbon matrix, and stable solid electrolyte interface (SEI) of FTO in cycles. FTO⊂CNT electrodes present an excellent cycle stability (358.8 mA h g after 200 cycles at 100 mA g) and remarkable rate capability (201.8 mA h g at 5000 mA g) with a high Coulombic efficiency of approximately 99%. In addition, combined with the typical NaV(PO) cathode to constitute full SIBs, the assembled FTO⊂CNT//NaV(PO) batteries are also demonstrated with superior rate capability and a long cycle life.

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FeF₃·0.33H₂O@carbon nanosheets with honeycomb architectures for high-capacity lithium-ion cathode storage by enhanced pseudocapacitance

Zhang

et al. 2021

J. Mater. Chem. A

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Corncob residues as carbon quantum dots sources and their application in detection of metal ions

Zhang

Wang

Liu

et al. 2019

Industrial Crops and Products

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Sb nanoparticle decorated rGO as a new anode material in aqueous chloride ion batteries

et al. 2020

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Bionic sunflower-like structure of polydopamine-confined NiFe-based quantum dots for electrocatalytic oxygen evolution reaction

Zhang

Tang

Dong

et al. 2022

Applied Catalysis B: Environmental

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Liguo Zhang

Ilmenite Nanotubes for High Stability and High Rate Sodium-Ion Battery Anodes

FeF₃·0.33H₂O@carbon nanosheets with honeycomb architectures for high-capacity lithium-ion cathode storage by enhanced pseudocapacitance

Corncob residues as carbon quantum dots sources and their application in detection of metal ions

Sb nanoparticle decorated rGO as a new anode material in aqueous chloride ion batteries

Bionic sunflower-like structure of polydopamine-confined NiFe-based quantum dots for electrocatalytic oxygen evolution reaction

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Liguo Zhang

Ilmenite Nanotubes for High Stability and High Rate Sodium-Ion Battery Anodes

FeF3·0.33H2O@carbon nanosheets with honeycomb architectures for high-capacity lithium-ion cathode storage by enhanced pseudocapacitance

Corncob residues as carbon quantum dots sources and their application in detection of metal ions

Sb nanoparticle decorated rGO as a new anode material in aqueous chloride ion batteries

Bionic sunflower-like structure of polydopamine-confined NiFe-based quantum dots for electrocatalytic oxygen evolution reaction

Contact Info

Product

Resources

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FeF₃·0.33H₂O@carbon nanosheets with honeycomb architectures for high-capacity lithium-ion cathode storage by enhanced pseudocapacitance