W/V Dual-Atom Doping MoS_(2)-Mediated Phase Transition for Efficient Polysulfide Adsorption/Conversion Kinetics in Lithium-Sulfur BatteryOA
The dissolvable polysulfides and sluggish Li_2S conversion kinetics are acknowledged as two significant challenges in the application lithium-sulfur(Li-S)batteries.Herein,we introduce a dual-doping strategy to modulate the electronic structure of MoS_(2),thereby obtaining a multifunctional catalyst that serves as an efficient sulfur host.The W/V dual single-atomdoped MoS_(2)grown on carbon nanofibers(CMWVS)demonstrates a strong adsorption ability for lithium polysulfides,suppressing the shuttle effects.Additionally,the doping process also results in the phase transition from 2H-MoS_(2)to 1T-MoS_(2)and generates sufficient edge sulfur atoms,promoting the charge/electron transfer and enriching the reaction sites.All these merits contribute to the superior conversion reaction kinetics,leading to the outstanding Li-S battery performance.When fabricated as cathodes by compositing with sulfur,the CMWVS/S cathode delivers a high capacity of 1481.7 mAh g^(-1)at 0.1 C(1 C=1672 mAh g^(-1))and maintains 816.3 m Ah g^(-1)after 1000 cycles at 1.0 C,indicating outstanding cycling stability.Even under a high sulfur loading of 7.9 mg cm^(-2)and lean electrolyte conditions(E/S ratio of 9.0μL mg^(-1)),the cathode achieves a high areal capacity of 8.2 m Ah cm^(-2),showing great promise for practical Li-S battery applications.This work broadens the scope of doping strategies in transition-metal dichalcogenides by tailoring their electronic structures,providing insightful direction for the rational development of high-efficiency electrocatalysts for advanced Li-S battery applications.
Zhe Cui;Ping Feng;Gang Zhong;Qingdong Ou;Mingkai Liu
Macao Institute of Materials Science and Engineering(MIMSE),Faculty of Innovation Engineering,Macao University of Science and Technology,Taipa,Macao,People’s Republic of ChinaInstitute for Technical Chemistry and Environmental Chemistry,Friedrich-Schiller-Universitat Jena,07743 Jena,GermanyMacao Institute of Materials Science and Engineering(MIMSE),Faculty of Innovation Engineering,Macao University of Science and Technology,Taipa,Macao,People’s Republic of ChinaMacao Institute of Materials Science and Engineering(MIMSE),Faculty of Innovation Engineering,Macao University of Science and Technology,Taipa,Macao,People’s Republic of China Macao University of Science and Technology Zhuhai MUST Science and Technology Research Institute,Zhuhai 519031,People’s Republic of ChinaSchool of Chemistry&Chemical Engineering,Anhui University of Technology,Ma’anshan 243002,Anhui,People’s Republic of China
信息技术与安全科学
lithium-sulfur batteriesElectrocatalystPhase transitionDual single atomsMolybdenum disulfide
《Nano-Micro Letters》 2026 (4)
P.700-717,18
supported by the National Natural Science Foundation of China(52402166)the Science and Technology Development FundMacao SAR(0065/2023/AFJ,0116/2022/A3)the Australian Research Council(DE220100154)the Natural Science Foundation of Guangdong Province(2025A1515011120)。
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