NiFe2V2O8@N-Doped carbon Yolk-Double shell spheres for efficient lithium storage

NiFe2V2O8@NC nanostructures with hierarchically porous yolk-double shell spherical architectures are elaborately fabricated via a facile template-free protocol. Benefited from the expanded ion-transport channels, as well as the activation of synergetic cation-oxygen redox, the electrode manifests ex...

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Published inChemical engineering journal (Lausanne, Switzerland : 1996) Vol. 454; p. 140045
Main Authors Yang, Chenyu, Wang, Xiao, Ren, Yongqiang, Gu, Shaonan, Wang, Qian, Li, Huan, Yue, Kun, Gao, Tingting, Zhou, Guowei
Format Journal Article
LanguageEnglish
Published Elsevier B.V 15.02.2023
Subjects
Fast ion-diffusion kinetics
Lithium-ion batteries
Polymetallic oxide nanostructures
Synergetic cation and oxygen redox
Yolk-double shell architectures
Lithium-ion batteries
Fast ion-diffusion kinetics
Polymetallic oxide nanostructures
Yolk-double shell architectures
Synergetic cation and oxygen redox
Online AccessGet full text
ISSN1385-8947
1873-3212
DOI10.1016/j.cej.2022.140045

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Abstract NiFe2V2O8@NC nanostructures with hierarchically porous yolk-double shell spherical architectures are elaborately fabricated via a facile template-free protocol. Benefited from the expanded ion-transport channels, as well as the activation of synergetic cation-oxygen redox, the electrode manifests excellent rate capability and cycling stability. [Display omitted] •NiFe2V2O8@NC nanospheres with hierarchically yolk-double shell are fabricated.•The porous yolk-double shell can accommodate sufficient volume change.•Synergetic cation and oxygen redox is realized by active vanadium redox couples.•NiFe2V2O8@NC harvest a high reversible capacity of 1347.6 mA h g−1 over 200 cycles.•LiCoO2// NiFe2V2O8@NC lithium ion full-cells are assembled and evaluated. Polymetallic oxide nanostructures with intricate architectures have become the promising subject of much recent investigations into high-efficiency electrode materials for lithium-ion batteries (LIBs). However, their smooth implementation is still plagued by the fabrication of multi-component structures as well as the delivered inadequate specific capacities. Here, complex NiFe2V2O8@N-doped carbon nanostructures with hierarchically porous yolk-double shell spherical architectures via a facile template-free approach are developed and evaluated as the high-efficiency anode materials for LIBs. Benefited from the yolk-double shell constructions, impressively, the electrode harvests a high reversible capacity of 1347.6 mA h g−1 over 200 cycles without visible deterioration at 0.2 A g−1, a robust rate capability (726.1 mA h g−1 at 5 A g−1), and a desirable cycle stability (75.6% capacity retention over 300 cycles at 1 A g−1). Such excellent electrochemical Li-ion storage capability is believed to result from the fast ion-diffusion kinetics enabled by the synergetic cation and oxygen redox because of the introduction of vanadium redox couples, which can be further boosted by capacitive-dominated surface electrochemical reaction. This work provides enlightening insights into the elaborate design and fabrication of complex porous yolk-shell-like nanostructures with intricate compositions for high-efficiency lithium storage.
AbstractList NiFe2V2O8@NC nanostructures with hierarchically porous yolk-double shell spherical architectures are elaborately fabricated via a facile template-free protocol. Benefited from the expanded ion-transport channels, as well as the activation of synergetic cation-oxygen redox, the electrode manifests excellent rate capability and cycling stability. [Display omitted] •NiFe2V2O8@NC nanospheres with hierarchically yolk-double shell are fabricated.•The porous yolk-double shell can accommodate sufficient volume change.•Synergetic cation and oxygen redox is realized by active vanadium redox couples.•NiFe2V2O8@NC harvest a high reversible capacity of 1347.6 mA h g−1 over 200 cycles.•LiCoO2// NiFe2V2O8@NC lithium ion full-cells are assembled and evaluated. Polymetallic oxide nanostructures with intricate architectures have become the promising subject of much recent investigations into high-efficiency electrode materials for lithium-ion batteries (LIBs). However, their smooth implementation is still plagued by the fabrication of multi-component structures as well as the delivered inadequate specific capacities. Here, complex NiFe2V2O8@N-doped carbon nanostructures with hierarchically porous yolk-double shell spherical architectures via a facile template-free approach are developed and evaluated as the high-efficiency anode materials for LIBs. Benefited from the yolk-double shell constructions, impressively, the electrode harvests a high reversible capacity of 1347.6 mA h g−1 over 200 cycles without visible deterioration at 0.2 A g−1, a robust rate capability (726.1 mA h g−1 at 5 A g−1), and a desirable cycle stability (75.6% capacity retention over 300 cycles at 1 A g−1). Such excellent electrochemical Li-ion storage capability is believed to result from the fast ion-diffusion kinetics enabled by the synergetic cation and oxygen redox because of the introduction of vanadium redox couples, which can be further boosted by capacitive-dominated surface electrochemical reaction. This work provides enlightening insights into the elaborate design and fabrication of complex porous yolk-shell-like nanostructures with intricate compositions for high-efficiency lithium storage.
ArticleNumber 140045
Author Gao, Tingting
Ren, Yongqiang
Yue, Kun
Zhou, Guowei
Yang, Chenyu
Gu, Shaonan
Wang, Qian
Li, Huan
Wang, Xiao
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Keywords Lithium-ion batteries
Fast ion-diffusion kinetics
Polymetallic oxide nanostructures
Yolk-double shell architectures
Synergetic cation and oxygen redox
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Snippet NiFe2V2O8@NC nanostructures with hierarchically porous yolk-double shell spherical architectures are elaborately fabricated via a facile template-free...
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SourceType Enrichment Source
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StartPage 140045
SubjectTerms Fast ion-diffusion kinetics
Lithium-ion batteries
Polymetallic oxide nanostructures
Synergetic cation and oxygen redox
Yolk-double shell architectures
Title NiFe2V2O8@N-Doped carbon Yolk-Double shell spheres for efficient lithium storage
URI https://dx.doi.org/10.1016/j.cej.2022.140045
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