Antimony (Sb) is an intriguing anode material for Li-ion batteries (LIBs) owing to its high theoretical capacity of 660 mAh·g −1 and appropriate working potential of ~ 0.8 V (vs.
AI Customer ServiceIn this study, a new antimony-based graphite composite has been prepared as candidate for the anode material of lithium-ion batteries. It was synthesised by an original
AI Customer ServiceFigure 1. (A)Schematic diagram of element contents in the crust []; (B)Comparison of theoretical capacity with different elements for potassium ion batteries [];
AI Customer Service2.1 Preparation of an artificial composite solid electrolyte interphase (Li@SbCl 3-x). To construct an artificial composite solid electrolyte interphase (SEI) containing
AI Customer ServicePotential High-Performance Anode Material for Potassium Ion Batteries:Antimony CHENG Guang-Zeng, LIU Shuai *, WANG Huan-Lei * School of Materials Science and Engineering,
AI Customer ServiceA tubular battery uses technology that seals the active material in polyester tubes called gauntlets, instead of pasting it on the surface of the plate. The spines in Exide tubular batteries are
AI Customer ServiceAntimony (Sb)-based materials, as a kind of potential high capacity and low cost materials, are the focus of attention in the anode materials of potassium ion batteries.
AI Customer ServiceHigh-purity antimony is used as a donor additive for doping germanium and silicon [1, 2].Antimony-based semiconductor materials (AlSb, GaSb, and InSb) are utilized in
AI Customer ServiceAs the typical anode material for lithium batteries, antimony-based materials have attracted much attention due to their high theoretical specific capacity and high safety performance.
AI Customer ServiceThe work explores novel dual-ion batteries that use an antimony-containing anode and a graphitic cathode. The results contribute to the development of new batteries that
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AI Customer ServiceAntimony has a high theoretical capacity and suitable alloying/dealloying potentials to make it a future anode for potassium-ion batteries (PIBs); however, substantial volumetric changes, severe pu...
AI Customer ServiceThe development of sodium-ion (SIBs) and potassium-ion batteries (PIBs) has increased rapidly because of the abundant resources and cost-effectiveness of Na and K. Antimony (Sb) plays an important role in SIBs
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AI Customer ServiceAntimony has a high theoretical capacity and suitable alloying/dealloying potentials to make it a future anode for potassium-ion batteries (PIBs); however, substantial
AI Customer ServiceThe work explores novel dual-ion batteries that use an antimony-containing anode and a graphitic cathode. The results contribute to the development of new batteries that may involve anode materials incorporating
AI Customer ServiceIn this study, the recent progress of Sb-based materials including elemental Sb nano-structures, intermetallic Sb alloys and Sb chalcogenides for lithium-ion and sodium-ion batteries are introduced in detail along with their electrode
AI Customer ServiceLithium (Li) is considered the most promising anode material for Li metal batteries (LMBs) because of its extraordinarily high theoretical capacity and the lowest
AI Customer ServiceIn this study, the recent progress of Sb-based materials including elemental Sb nano-structures, intermetallic Sb alloys and Sb chalcogenides for lithium-ion and sodium-ion batteries are
AI Customer ServiceHerein, we review the recent progress of antimony-based anode materials for PIBs, including metallic antimony, antimony-based alloys, antimony chalcogenides, and composite combinations. Meanwhile, this review also
AI Customer ServiceHerein, we review the recent progress of antimony-based anode materials for PIBs, including metallic antimony, antimony-based alloys, antimony chalcogenides, and composite
AI Customer ServiceAs the typical anode material for lithium batteries, antimony-based materials have attracted much attention due to their high theoretical specific capacity and high safety performance.
AI Customer ServiceIn this work, tin-antimony/carbon composites porous fibers were successfully synthesized by an electrospinning method combined with two-step heat treatment processes,
AI Customer Service3 天之前· The quest for sustainable and high-performing energy storage systems has led to a burgeoning interest in advanced electrode materials for rechargeable batteries. In Li-ion
AI Customer ServiceThis review discusses various antimony-based anode materials applied to potassium ion batteries from various perspectives, including material selection, structural
AI Customer ServiceAntimony has a high theoretical capacity and suitable alloying/dealloying potentials to make it a future anode for potassium-ion batteries (PIBs); however, substantial volumetric changes, severe pulverization, and active mass delamination from the Cu foil during potassiation/depotassiation need to be overcome.
In this review, we systematically reviewed and summarized recent progress on Sb and Sb-based alloys as anodes for PIBs. Antimony, with its high theoretical capacity and appropriate potassiation potential, is regarded as a promising alloying-type anode material for PIBs.
Lithium (Li) is considered the most promising anode material for Li metal batteries (LMBs) because of its extraordinarily high theoretical capacity and the lowest electrochemical potential among all potential anode materials.
In-Situ Synthesis of Antimony Nanoparticles Encapsulated in Nitrogen-Doped Porous Carbon Framework as High Performance Anode Material for Potassium-Ion Batteries. Chem. Eng. J. 2022, 446, 137302, DOI: 10.1016/j.cej.2022.137302
In this study, the recent progress of Sb-based materials including elemental Sb nano-structures, intermetallic Sb alloys and Sb chalcogenides for lithium-ion and sodium-ion batteries are introduced in detail along with their electrode mechanisms, synthesis, design strategies and electrochemical performance.
Among various anode materials, elements that alloy and dealloy with lithium are assumed to be prospective in bringing higher capacities and increasing the energy density of DIBs. In this work, antimony in the form of a composite with carbon (Sb−C) is evaluated as an anode material for DIB full cells for the first time.
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