Lithium–sulfur batteries have attracted attention due to their six-fold specific energy compared with conventional lithium-ion batteries. Dissolution of lithium polysulfides, volume expansion of sulfur and uncontrollable deposition of lithium sulfide are three of the main challenges for this technology. State-of-the-art sulfur cathodes based on metal-oxide nanostructures can suppress the shuttle-effect and enable controlled lithium sulfide deposition. However, a clear mechanistic understanding and corresponding selection criteria for the oxides are still lacking. Herein, various nonconductive metal-oxide nanoparticle-decorated carbon flakes are synthesized via a facile biotemplating method. The cathodes based on magnesium oxide, cerium oxide and lanthanum oxide show enhanced cycling performance. Adsorption experiments and theoretical calculations reveal that polysulfide capture by the oxides is via monolayered chemisorption. Moreover, we show that better surface diffusion leads to higher deposition efficiency of sulfide species on electrodes. Hence, oxide selection is proposed to balance optimization between sulfide-adsorption and diffusion on the oxides.
Novel metal clusters and coordinatively unsaturated sites are important features of metal-organic frameworks (MOFs) for many applications such as in catalysis, gas storage and separation. Herein, two isostructural MOFs, BUT-150...
Propyne/propylene separation is important in the petrochemical industry but challenging resulting from their similar physical properties and close molecular sizes. Herein, we present two isoreticular ultramicroporous Zn(Ⅱ)-MOFs, Zn2(ATZ)2(TPDC) (BUT-305, H2TPDC...
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