2021
DOI: 10.1002/aenm.202100673
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Unraveling the Catalytic Activity of Fe–Based Compounds toward Li2Sx in Li–S Chemical System from dp Bands

Abstract: are not satisfactory because of the low conductivity of sulfur and extremely dissolving of lithium polysulfide (LPS) in ether-based electrolyte. [8] Adopting the structural carbon materials with abundant pores (e.g., carbon spheres, [9][10][11][12] carbon nanotubes, [13][14][15] graphene [16,17] ) and some metal-based compounds (such as cobalt, [6,18,19] nickel, [21][22][23][24] manganese, [25][26][27][28] iron [29][30][31][32][33][34][35][36][37] ) embedded in carbon host can remarkably improve the electroche… Show more

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Cited by 117 publications
(54 citation statements)
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“…To further support such a statement, the d-p models of related metal compounds were established. [13,14,18] In these metal compounds, the d-band electrons of a metal element and the p-band electrons of a non-metal element are known to play vital roles in forming and breaking the bonds with other intermediates or elements. [18] From the viewpoint of a valence band theory, the Fe-3d orbitals of a FeS based electrocatalyst overlap with the 3p orbitals of ligand S atoms, leading to the generation of a (FeS) bond and a (FeS)* anti-bond.…”
Section: Resultsmentioning
confidence: 99%
See 1 more Smart Citation
“…To further support such a statement, the d-p models of related metal compounds were established. [13,14,18] In these metal compounds, the d-band electrons of a metal element and the p-band electrons of a non-metal element are known to play vital roles in forming and breaking the bonds with other intermediates or elements. [18] From the viewpoint of a valence band theory, the Fe-3d orbitals of a FeS based electrocatalyst overlap with the 3p orbitals of ligand S atoms, leading to the generation of a (FeS) bond and a (FeS)* anti-bond.…”
Section: Resultsmentioning
confidence: 99%
“…[13,14,18] In these metal compounds, the d-band electrons of a metal element and the p-band electrons of a non-metal element are known to play vital roles in forming and breaking the bonds with other intermediates or elements. [18] From the viewpoint of a valence band theory, the Fe-3d orbitals of a FeS based electrocatalyst overlap with the 3p orbitals of ligand S atoms, leading to the generation of a (FeS) bond and a (FeS)* anti-bond. [19] Stemming from different electronegativities of Fe and S atoms, the energy difference of a (FeS) bond from a (FeS)* anti-bond is thus induced, which can be described by the Δ dp of the band centers of Fe-3d (ε d ) and S-3p (ε p ).…”
Section: Resultsmentioning
confidence: 99%
“…Various graphitic carbon, if the defects, pore and surface, and phase structure are rationally engineered, is another type of promising cathode material, based on an anion–cation relay storage mechanism. [ 2,22–27 ] Hence, the future trends in cathode materials lie in not only achieving cycling stability and long lifespan of S and sulfides, [ 28,29 ] layered metal oxides, [ 30 ] and polyanionic phosphates but also developing multicomponent high‐voltage or Ca‐rich large capacity cathodes such as Ni/Mn‐based Li/Na‐counterparts and defect/interface‐engineered fast kinetics and cycling‐stable cathodes. [ 31–36 ]…”
Section: Current Status and Fair Performance Comparisonsmentioning
confidence: 99%
“…Various graphitic carbon, if the defects, pore and surface, and phase structure are rationally engineered, is another type of promising cathode material, based on an anion-cation relay storage mechanism. [2,[22][23][24][25][26][27] Hence, the future trends in cathode materials lie in not only achieving cycling stability and long lifespan of S and sulfides, [28,29] layered metal oxides, [30] and Current calcium metal batteries and future trends from voltage-capacity-efficiency's view, in which the redox potentials for cathodes and Cametals, as well as some reference electrodes frequently involved in the research of calcium batteries, are calibrated to versus SHE. All the data are adapted from publications reported previously.…”
Section: Current Status and Fair Performance Comparisonsmentioning
confidence: 99%
“…Moreover, Fe 3 C@Fe 3 O 4 @C was utilized as the interfacial coating catalyst on the separator to promote the conversion of lithium polysulfides. [ 144 ] Based on the prepared materials, the d–p band models have been successfully employed to simulate the Fe‐based polysulfide catalysts for LiS batteries. The narrower energy bandgap (∆p–d), that is, the average difference within the center of the p‐band and the d‐band in the electron spin upward/downward, corresponds to a reduced reaction impediment and improved rate‐performance of batteries.…”
Section: Carbon Supported Psrr/psor Catalysts For M–s Batteriesmentioning
confidence: 99%