2022
DOI: 10.1002/inf2.12346
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Oxygen vacancies and N‐doping in organic–inorganic pre‐intercalated vanadium oxide for high‐performance aqueous zinc‐ion batteries

Abstract: Pre‐intercalation of metal ions into vanadium oxide is an effective strategy for optimizing the performance of rechargeable zinc‐ion battery (ZIB) cathodes. However, the battery long‐lifespan achievement and high‐capacity retention remain a challenge. Increasing the electronic conductivity while simultaneously prompting the cathode diffusion kinetics can improve ZIB electrochemical performance. Herein, N‐doped vanadium oxide (N‐(Zn,en)VO) via defect engineering is reported as cathode for aqueous ZIBs. Positron… Show more

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Cited by 95 publications
(52 citation statements)
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“…[24] Due to the distortion of V−O polyhedra, vanadium oxides give rise to a variety of structural frameworks, including VO 4 tetrahedron, VO 5 square pyramid, and VO 6 octahedron. [25,26] Another widely investigated cathode materials group is PBAs. With an open-framework structure and threedimensional (3D) channels, PBAs allow a rapid ion migration with little structural change.…”
Section: Cathode Interfacementioning
confidence: 99%
“…[24] Due to the distortion of V−O polyhedra, vanadium oxides give rise to a variety of structural frameworks, including VO 4 tetrahedron, VO 5 square pyramid, and VO 6 octahedron. [25,26] Another widely investigated cathode materials group is PBAs. With an open-framework structure and threedimensional (3D) channels, PBAs allow a rapid ion migration with little structural change.…”
Section: Cathode Interfacementioning
confidence: 99%
“…25 To meet these formidable challenges, heteroatom-doping is regarded as an effective approach to optimize the electronic structure of transition metal oxides, thus achieving highly efficient electrocatalytic performance. 26 In this context. the isolated single heteroatoms embedded in supports with much higher atomic utilization, tunable localized coordination state, and distinct activity could permit to selectively adsorb nitrogenous intermediate and prevent the N−N coupling pathway toward N 2 byproducts for the absence of an active neighboring site, which significantly promotes the selectivity toward nitrate-to-ammonia conversion.…”
mentioning
confidence: 98%
“…Transition metal oxides have been extensively investigated as electrocatalysts for its attractive catalytic activity and electrochemical durability. However, its performance is restricted by its poor electrical conductivity and limited catalytic active sites availability . To meet these formidable challenges, heteroatom-doping is regarded as an effective approach to optimize the electronic structure of transition metal oxides, thus achieving highly efficient electrocatalytic performance . In this context.…”
mentioning
confidence: 99%
“…22,23 Nitrogen doping can reduce the diffusion barrier and accelerate the migration of Zn 2+ ions. 24 In addition, nitrogen-and sulfur-containing groups are negatively charged, which can bind to zinc ions, inducing spacious nucleation of zinc and suppressing zinc-dendrite formation. In addition, oxygen-containing functional groups on the surfaces of carbon dots, such as −COOH, can reduce the activity of free water and thus inhibit side reactions.…”
mentioning
confidence: 99%
“…Carbon dots (CDs) are a new kind of carbon material with a size less than 10 nm, composed of carbon core and surface functional groups, a large quantity of which are unsaturated functional groups, mainly including oxygen-containing functional groups generally, such as hydroxyl and carboxyl groups. , Initially, CDs were used for drug delivery and ion detection due to their good biocompatibility and photoluminescence performance; CDs have successfully drawn much attention in various energy-storage systems in recent years due to their small quantum size, rich surface functional groups, low-toxicity, adjustable structure and composition. , Nitrogen doping can reduce the diffusion barrier and accelerate the migration of Zn 2+ ions . In addition, nitrogen- and sulfur-containing groups are negatively charged, which can bind to zinc ions, inducing spacious nucleation of zinc and suppressing zinc-dendrite formation.…”
mentioning
confidence: 99%