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CoO x nanoparticles loaded on carbon spheres with synergistic effects for effective inhibition of shuttle effect in Li-S batteries.

Ning ChaiYujie QiQinhua GuJunnan ChenMing LuXia ZhangBingsen Zhang
Published in: Nanoscale (2023)
Lithium-sulfur (Li-S) batteries, as one of the new energy storage batteries, show immense potential due to their high theoretical specific capacity and theoretical energy density. However, there are still some problems to be solved, among which the shuttle effect of lithium polysulfides is one extremely serious issue with respect to the industrial application of Li-S batteries. Rational design of electrode materials with effective catalytic conversion ability is an effective route to accelerate the conversion of lithium polysulfides (LiPSs). Herein, considering the adsorption and catalysis of LiPSs, CoO x nanoparticles (NPs) loaded on carbon sphere composites (CoO x /CS) were designed and constructed as cathode materials. The CoO x NPs obtained, with ultralow weight ratio and uniform distribution, consist of CoO, Co 3 O 4 , and metallic Co. The polar CoO and Co 3 O 4 enable chemical adsorption towards LiPSs through Co-S coordination, and the conductive metallic Co can improve electronic conductivity and reduce impedance, which is beneficial for ion diffusion at the cathode. Based on these synergistic effects, the CoO x /CS electrode exhibits accelerated redox kinetics and enhanced catalytic activity for conversion of LiPSs. Consequently, the CoO x /CS cathode delivers improved cycling performance, with an initial capacity of 980.8 mA h g -1 at 0.1C and a reversible specific capacity of 408.4 mA h g -1 after 200 cycles, along with enhanced rate performance. This work provides a facile route to construct cobalt-based catalytic electrodes for Li-S batteries, and promotes understanding of the LiPSs conversion mechanism.
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