Exploring new materials and methods to achieve high utilization of sulfur with lean electrolyte is still a common concern in lithium-sulfur batteries. Here, high-density oxygen doping chemistry is introduced for making highly conducting, chemically stable sulfides with a much higher affinity to lithium polysulfides. It is found that doping large amounts of oxygen into NiCo S is feasible and can make it outperform the pristine oxides and natively oxidized sulfides. Taking the advantages of high conductivity, chemical stability, the introduced large Li-O interactions, and activated Co (Ni) facets for catalyzing S , the NiCo (O-S) is able to accelerate the Li S-S redox kinetics. Specifically, lithium-sulfur batteries using free-standing NiCo (O-S) paper and interlayer exhibit the highest capacity of 8.68 mAh cm at 1.0 mA cm even with a sulfur loading of 8.75 mg cm and lean electrolyte of 3.8 µL g . The high-density oxygen doping chemistry can be also applied to other metal compounds, suggesting a potential way for developing more powerful catalysts towards high performance of Li-S batteries.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9189686 | PMC |
| http://dx.doi.org/10.1002/advs.202200840 | DOI Listing |
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