Theoretical study on the superconductivity of graphene-like TMB (TM = Cr, Fe and Co) monolayer and its potential anchoring and catalytic properties for lithium-sulfur batteries
In recent years, two-dimensional materials have aroused enormous interest owing to their superior electrochemical performance, abundant exposed active sites, high specific surfaces and so on. Unlike many stable allotropes, honeycomb hexagonal borophene is kinetically unstable. In this study, we intr...
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Veröffentlicht in: | Physical chemistry chemical physics : PCCP 2023-11, Vol.25 (42), p.29182-29191 |
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Zusammenfassung: | In recent years, two-dimensional materials have aroused enormous interest owing to their superior electrochemical performance, abundant exposed active sites, high specific surfaces and so on. Unlike many stable allotropes, honeycomb hexagonal borophene is kinetically unstable. In this study, we introduce transition metal atoms (Cr, Fe and Co) to stabilize honeycomb hexagonal borophene, forming stable graphene-like TMB
6
(TM = Cr, Fe and Co) monolayers. Moreover, we explored the possibility of superconductivity and the anchoring materials of lithium-sulfur batteries using the first-principles density functional theory (DFT) calculation. Our results show that CoB
6
exhibited the best superconductivity with a superconducting transition temperature of 33.3 K. Furthermore, CoB
6
and FeB
6
are promising anchoring materials because of the suppression of lithium polysulfides shuttling in lithium-sulfur batteries because they can accelerate sulfur reduction reaction kinetics.
The critical temperature
T
c
of CoB
6
was predicted to be 33.3 K. CoB
6
and FeB
6
guarantee strong binding for Li
2
S
n
clusters to suppress the shuttle effect. Both CoB
6
and FeB
6
monolayers can accelerate the process of charge and discharge in Li-S batteries, respectively. |
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ISSN: | 1463-9076 1463-9084 |
DOI: | 10.1039/d3cp01964k |