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Ultrathin bismuth nanosheets as an efficient polysulfide catalyst for high performance lithium-sulfur batteries
Although many materials have sprung up as catalysts to improve polysulfide conversion in lithium-sulfur batteries, the catalytic mechanism is vague and a universal and efficient catalyst is still absent. Herein, we developed ultrathin polycrystalline bismuth (2D-Bi) nanosheets (thickness of ∼4 nm) a...
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Published in: | Journal of materials chemistry. A, Materials for energy and sustainability Materials for energy and sustainability, 2020-01, Vol.8 (1), p.149-157 |
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Main Authors: | , , |
Format: | Article |
Language: | English |
Subjects: | |
Citations: | Items that this one cites Items that cite this one |
Online Access: | Get full text |
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Summary: | Although many materials have sprung up as catalysts to improve polysulfide conversion in lithium-sulfur batteries, the catalytic mechanism is vague and a universal and efficient catalyst is still absent. Herein, we developed ultrathin polycrystalline bismuth (2D-Bi) nanosheets (thickness of ∼4 nm) as an electrocatalyst for polysulfide conversion. Such a 2D polycrystalline structure not only absorbs and immobilizes soluble polysulfides but also accelerates multistep polysulfide redox reactions, greatly inhibiting the polysulfide shuttling during charge-discharge cycles. Furthermore, we gained an in-depth understanding of the distinctive electrocatalysis mechanism of 2D-Bi nanosheets by steady-state and dynamic electrochemical testing methods. The results showed that with the 2D-Bi electrocatalyst, the exchange current density (
i
0
) and electron transfer number (
n
) (
i
0
> 3 mA cm
−2
,
n
= 6.6 at 2.1 V) were significantly enhanced. As a consequence, a 2D-Bi modified Li-S battery exhibited good electrochemical performance with high reversible capacity, stable cycle life and superb rate performance (retaining a capacity of 408 mA h g
−1
after 500 cycles at 10C). Ultimately, a deep exploration and comprehension of the interior redox process as well as the conversion mechanism of sulfides provided a great avenue for accelerating the large-scale application of Li-S batteries in the near future.
Ultrathin polycrystalline bismuth (2D-Bi) nanosheets is developed as the multifunctional electrocatalyst for polysulfide conversion. And an in-depth understanding of the distinctive electrocatalysis mechanism of 2D-Bi is revealed by steady-state and dynamic electrochemical methods. |
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ISSN: | 2050-7488 2050-7496 |
DOI: | 10.1039/c9ta11079h |