2020
DOI: 10.1002/smll.202005023
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Structural Engineering of SnS2Encapsulated in Carbon Nanoboxes for High‐Performance Sodium/Potassium‐Ion Batteries Anodes

Abstract: Conversion-alloying type anode materials like metal sulfides draw great attention due to their considerable theoretical capacity for sodium-ion batteries (SIBs) and potassium-ion batteries (PIBs). However, poor conductivity, severe volume change, and harmful aggregation of the material during charge/discharge lead to unsatisfying electrochemical performance. Herein, a facile and green strategy for yolk-shell structure based on the principle of metal evaporation is proposed. SnS 2 nanoparticle is encapsulated i… Show more

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Cited by 143 publications
(102 citation statements)
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“…Particularly, when the transition metals of the transition metal compounds could be alloyed with K metal, such as Sb and Sn whose alloying mechanisms were discussed in the previous section, a following alloying process of transition metal and K metal would occur after the intercalation‐conversion process to provide extra capacity. However, the problem is that they often suffer from severer transformation, leading to much poorer cycle ability 121,124‐127 . One typical example is that bare Sb 2 S 3 nanowires showed a high capacity of near 500 mA h/g based on the intercalation‐conversion and alloying mechanism, but poor rate capacity and cycle stability due to the severe structural deformation during the charge/discharge process, revealed by in situ TEM at the atomic scale 121 .…”
Section: Carbon‐based Composite Materials For Potassium‐ion Batteriesmentioning
confidence: 99%
“…Particularly, when the transition metals of the transition metal compounds could be alloyed with K metal, such as Sb and Sn whose alloying mechanisms were discussed in the previous section, a following alloying process of transition metal and K metal would occur after the intercalation‐conversion process to provide extra capacity. However, the problem is that they often suffer from severer transformation, leading to much poorer cycle ability 121,124‐127 . One typical example is that bare Sb 2 S 3 nanowires showed a high capacity of near 500 mA h/g based on the intercalation‐conversion and alloying mechanism, but poor rate capacity and cycle stability due to the severe structural deformation during the charge/discharge process, revealed by in situ TEM at the atomic scale 121 .…”
Section: Carbon‐based Composite Materials For Potassium‐ion Batteriesmentioning
confidence: 99%
“…MIBs [192] Fe 7 S 8 /C@d-MoS 2 Hollow nanocages 505 mAh g −1 at 0.5 A g −1 , 318 mAh g −1 at 5 A g −1 286 mAh g −1 at 4 A g −1 , 500 cycles PIBs [127] SnS 2 @C Hollow nanobox 508 mAh g −1 at 0.1 A g −1 , 222 mAh g −1 at 2 A g −1 347 mAh g −1 at 1 A g −1 , 300 cycles 72% capacity retention PIBs [134] N-CoS 2 Yolk-shell nanospheres 744 mAh gZn −1 at 5 mA cm −2 165 h at 10 mA cm −2 ZABs [193] NiCo 2 S 4 Hollow spheres 1387.4 F g −1 at 1 A g −1 , 755 F g −1 at 10 A g −1 1387.5 F g −1 at 1 A g −1 , 4500 cycles 92.2% capacity retention SCs [194] For example, a semiconductor photocatalyst condenses electrons on the catalyst surface, thereby improving the photocatalytic CO 2 reduction ability. [69] Therefore, the preparation of some new-type, good-effect, and environment friendly photocatalysts has aroused great interest from many researchers.…”
Section: Cycles 80% Capacity Retentionmentioning
confidence: 99%
“…Sun et al designed a simple and versatile single-shell structure based on the principle of metal evaporation. [134] The nitrogen-doped carbon is encapsulated on the surface of the SnS 2 nanoparticles forming a spherical structure to further form a SnS 2 @C nanobox (Figure 5a). Where a reasonable internal space between the SnS 2 nanoparticles and the shell carbon layer can be clearly seen (Figure 5b-d), providing a good contact area as well as a high electrical conductivity.…”
Section: Single-shelled Hollow Structuresmentioning
confidence: 99%
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