2021
DOI: 10.1021/acssuschemeng.1c04036
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Enhancing Catalytic Conversion of Polysulfides by Hollow Bimetallic Oxide-Based Heterostructure Nanocages for Lithium-Sulfur Batteries

Abstract: Performance improvement of lithium-sulfur batteries (LSBs) is restricted by the dissolution and shuttle of lithium polysulfides (LiPSs). Prussian blue analogs (PBAs) and their derived nanomaterials are ideal sulfur-fixing materials owing to their abilities to anchor LiPSs, accelerate redox conversion, and smooth Li2S precipitation. Herein, the hollow Co x Fe3–x O4 heterostructure nanocages with highly interconnected pore architecture obtained by a PBA-assisted strategy are synthesized to overcome the abovement… Show more

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Cited by 19 publications
(10 citation statements)
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“…Powder XRD was used to analyze the crystal structure of the CoFe PBA and AuNPs@CoFe PBA nanocomposite. The XRD pattern (Figure E) of the CoFe PBA shows a series of characteristic peaks at 17.17, 24.44, 34.80, 39.07, 42.95, 50.06, 53.22, 56.35, 65.21, and 67.95°, in agreement with the peaks reported in the literature, indicating the successful preparation of the CoFe PBA. In the XRD pattern of the AuNPs@CoFe PBA nanocomposite, in addition to the peaks of the CoFe PBA, four new characteristic diffraction peaks corresponding to gold can be observed at 38.10, 44.24, 64.72, and 77.69°, verifying the presence of AuNPs.…”
Section: Resultsmentioning
confidence: 94%
“…Powder XRD was used to analyze the crystal structure of the CoFe PBA and AuNPs@CoFe PBA nanocomposite. The XRD pattern (Figure E) of the CoFe PBA shows a series of characteristic peaks at 17.17, 24.44, 34.80, 39.07, 42.95, 50.06, 53.22, 56.35, 65.21, and 67.95°, in agreement with the peaks reported in the literature, indicating the successful preparation of the CoFe PBA. In the XRD pattern of the AuNPs@CoFe PBA nanocomposite, in addition to the peaks of the CoFe PBA, four new characteristic diffraction peaks corresponding to gold can be observed at 38.10, 44.24, 64.72, and 77.69°, verifying the presence of AuNPs.…”
Section: Resultsmentioning
confidence: 94%
“…All the recent reports on Li-sulfur systems pertaining the interconnected conductive carbon architectures, high sulfur loading, polysulfide confinement to prevent polysulfide shutteling effect, surface coating on the separators, biomimetic membrance for high rate performances are well documented in detail (Yu et al, 2020;M. Zhao et al, 2020;Y. Chen et al, 2021;Pender et al, 2020;Tricoli et al, 2020;M.…”
Section: Lithium Sulfur Batteriesmentioning
confidence: 99%
“…The improved cycling performance of FSME is mainly attributed to (i) accommodation of large amount of active materials, (ii) buffering volume change of the active material during cycling, and (iii) chemical binding of polar MnO 2 with lithium polysulfide. All the recent reports on Li‐sulfur systems pertaining the interconnected conductive carbon architectures, high sulfur loading, polysulfide confinement to prevent polysulfide shutteling effect, surface coating on the separators, biomimetic membrance for high rate performances are well documented in detail (Yu et al, 2020; M. Zhao et al, 2020; Y. Chen et al, 2021; J. Li et al, 2021; Pender et al, 2020; Tricoli et al, 2020; M. Wang et al, 2022).…”
Section: Lithium Sulfur Batteriesmentioning
confidence: 99%
“…30 In addition, bi-metallic oxides have more active sites and stronger interactions with LiPSs than monometallic oxides by virtue of the favorable synergistic effect of hybridized orbitals and multiple elements. 31,32 Based on the foregoing, modifying the separator with bimetallic oxides and carbon materials is a potential strategy for improving electrochemical performance. 33,34 Herein, SrFe 12 O 19 (FSO) nanoparticles were successfully prepared by hydrothermal and calcination methods and then incorporated with acetylene black (AB) to modify PP separators by a simple coating method (Fig.…”
Section: Introductionmentioning
confidence: 99%