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Interfacial synergy of nanoengineered PANI/MnO2 for strong anchoring and fast conversion of polysulfides in Li-S batteries.
- Source :
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Journal of Power Sources . May2024, Vol. 602, pN.PAG-N.PAG. 1p. - Publication Year :
- 2024
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Abstract
- The shuttle of polysulfides and slow sulfur redox kinetics are the two main issues in the practical application of lithium sulfur (Li-S) batteries. The interface-induced electric fields produced in MnO 2 -based conductive composites are proposed to solve the above obstacles. Herein, a novel hybrid structure of birnessite-MnO 2 nanosheets in situ formed inside polyaniline nanotubes (NSs-MnO 2 @PANI) is prepared and applied as a catalytic host in Li-S batteries. The DFT calculation combined with experiments reveal the interface-induced electric field with a direction pointing from PANI to birnessite-MnO 2 is created, which would induce interface charge redistribution and result in electron-rich MnO 2 region and electron-deficient PANI region, optimizing the strong anchoring of polysulfides and their fast catalytic conversions. Owing to the interfacial synergy, the NSs-MnO 2 @PANI/S cathode delivers higher capacity than PANI/S at rates from 0.1 C (1473.7 vs. 467.5 mAh g−1) to 5 C (513.2 vs. 38.1 mAh g−1), with a low decay rate of 0.054% during 500 cycles at 0.2 C. Further, at an extremely high sulfur loading of 15.9 mg cm−2, the areal capacity achieves a high level of 10.2 mAh cm−2 at 0.05 C, with stable cycling at 1 C. Our work provides new insights for attaining high-energy and stable Li-S batteries. To overcome the low conductivity, the shuttling and sluggish redox kinetics of polysulfides for lithium-sulfur batteries, a novel hybrid structure of birnessite-MnO 2 nanosheets in situ formed inside polyaniline nanotubes (NSs-MnO 2 @PANI) was designed and applied as a catalytic host. The interface-induced electric field with a direction pointing from PANI to birnessite-MnO 2 was created at the two-phase interface of MnO 2 @PANI, which could optimize the strong anchoring of polysulfides and their fast catalytic conversions. [Display omitted] • An ingenious nanoengineering design for a newly sulfur host was reported. • Birnessite-MnO 2 nanosheets were in situ formed inside PANI nanotubes. • The interface-induced electric field was created pointing from PANI to MnO 2. • The NSs-MnO 2 @PANI hybrid combined strong anchoring and catalytic function. • Li-S batteries with superior electrochemical performances were obtained. [ABSTRACT FROM AUTHOR]
Details
- Language :
- English
- ISSN :
- 03787753
- Volume :
- 602
- Database :
- Academic Search Index
- Journal :
- Journal of Power Sources
- Publication Type :
- Academic Journal
- Accession number :
- 176391065
- Full Text :
- https://doi.org/10.1016/j.jpowsour.2024.234315