The catalytic performance of metal-organic frameworks (MOFs) in Li-S batteries is significantly hindered by unsuitable pore size, low conductivity, and large steric contact hindrance between the catalytic site and lithium polysulfide (LPSs). Herein, the smallest π-conjugated hexaaminobenzene (HAB) as linker and Ni(II) ions as skeletal node are in situ assembled into high crystallinity Ni-HAB 2D conductive MOFs with dense Ni-N units via dsp hybridization on the surface of carbon nanotube (CNT), fabricating Ni-HAB@CNT as separator modified layer in Li-S batteries. As-obtained unique π-d conjugated Ni-HAB nanostructure features ordered micropores with suitable pore size (≈8 Å) induced by HAB ligands, which can cooperate with dense Ni-N chemisorption sites to effectively suppress the shuttle effect. Meanwhile, the conversion kinetics of LPSs is significantly accelerated owing to the small steric contact hindrance and increased delocalized electron density endued by the planar tetracoordinate structure. Consequently, the Li-S battery with Ni-HAB@CNT modified separator achieves an areal capacity of 6.29 mAh cm at high sulfur loading of 6.5 mg cm under electrolyte/sulfur ratio of 5 µL mg . Moreover, Li-S single-electrode pouch cells with modified separators deliver a high reversible capacity of 791 mAh g after 50 cycles at 0.1 C with electrolyte/sulfur ratio of 6 µL mg .
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10520645 | PMC |
| http://dx.doi.org/10.1002/advs.202302518 | DOI Listing |
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