Enhancing performance of NiCo Sulfide composite cathode by Mn doping in Li-S batteries

A sulfurophilic Ni-Co bimetallic sulfide (NiCo2S4) with Mn doping is synthesized as the electrocatalyst for the cathode of lithium-sulfur batteries. The characterization showed that the incorporation of Mn into the NiCo2S4 effectively altered the size and crystallinity of the particles. The NiCoMn-S/CNT composite were further produced as the sulfur host by combining the Mn-doped NiCo2S4 with space-rich CNTs. This structure physically restricts polysulfides and improves the redox reaction kinetics of polysulfide conversion. Therefore, the NiCoMnS/CNT@S (4:6) as optimal ratio enables stable cycling with an initial capacity of -1149 mAh g-1 at 0.2 C and a lower capacity fade rate (-0.08% per cycle upon 500 cycles) at 0.5 C. Additionally, the cathode with a sulfur loading of 2.1 mg cm-2 delivers a reversible areal capacity (597.2mAh g-1) over 200 cycles. The results indicate that doping metallic ions into the NiCo2S4 lattice is an effective strategy for enhancing the electrochemical performance of the material in lithium-sulfur batteries.

Automated summary

A sulfurophilic Ni-Co bimetallic sulfide, with manganese doping, was synthesized for the cathode of lithium-sulfur batteries. The characterization showed that the incorporation of manganese effectively altered the particle size and crystallinity. The NiCoMn-S/CNT composite was further produced as the sulfur host, which physically restricts polysulfides and improves the redox reaction kinetics. The electrochemical performance of the material was enhanced in lithium-sulfur batteries by doping metallic ions into the NiCo2S4 lattice.