About Energy storage mechanism of antimony-based materials
This review discusses various antimony-based anode materials applied to potassium ion batteries from various perspectives, including material selection, structural design, and storage mechanism.
This review discusses various antimony-based anode materials applied to potassium ion batteries from various perspectives, including material selection, structural design, and storage mechanism.
Owing to its high theoretical specific capacity, effective working voltage, and abundant raw materials, antimony sulfide (Sb 2 S 3) was regarded as one promising anode material for electrochemical energy conversion and storage, especially regarding alkali-ion (Li +, Na +, and K +) batteries.
This review systematically introduces the recent research progress of a variety of Sb-based anodes for SIBs and PIBs from the perspective of composition selection, preparation technologies, structural characteristics, and energy storage behaviors.
This review focuses on the research progress of antimony oxide-based anode materials for alkali metal-ion storage, including electrochemical reaction mechanism and improvements in lithium/sodium/potassium-ion storage performance, as well as an outlook on the application prospects.
This review provides specific perspectives for the construction and optimization of Sb-based anode materials and suggests scope for future work on Sb-based anode materials, thereby.
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6 FAQs about [Energy storage mechanism of antimony-based materials]
Can antimony materials be used in commercial production?
The composite modification means can realize more considerable electrochemical performance enhancement [5, 58]. Therefore, choosing pure antimony material may be one of the first choices for commercial production. In the sequel, we present applications of Sb-based anode materials and their derivatives and discuss their practical feasibility.
Why is advanced characterization important for antimony-based anode materials?
The introduction of advanced characterization techniques helps to gain insight into the potassium storage mechanism, electrochemical performance enhancement mechanism, and potassium ion diffusion mechanism of antimony-based anode materials.
Is antimony sulfide a good anode material?
Owing to its high theoretical specific capacity, effective working voltage, and abundant raw materials, antimony sulfide (Sb 2 S 3) was regarded as one promising anode material for electrochemical energy conversion and storage, especially regarding alkali-ion (Li +, Na +, and K +) batteries.
Why do antimony base metal anodes have high cycling stability?
This is attributable to their compositional disorder and structural disorder. This property can effectively alleviate the structural internal stresses generated in the alloying mechanism of antimony-based metals and their derivatives. This provides a clear idea for developing antimony base metal anodes with high cycling stability.
What is the theoretical capacity of antimony selenides?
The theoretical capacity of sodium storage contributed by the resulting material of the above two-step reaction is 670 mA∙h/g (1 mol Sb 2 Se 3 -9 mol Na +) [7, 17, 18, 20]. Evidently, the theoretical capacity of antimony selenides is less than that of antimony sulfides and oxides and it is equivalent to that of metal Sb.
Can antimony be commercialized?
Considerations are made in terms of the economics of the material and the fact that it can be commercialized. Pure antimony material, although energy density and power density are not as good as other materials. Its simple synthesis process can bring some economic benefits.
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