Litcius/Paper detail

2D Amorphous Mo‐Doped CoB for Bidirectional Sulfur Catalysis in Lithium Sulfur Batteries

Tao Feng, Teng Zhao, Nanxiang Zhang, Yuzhen Duan, Li Li, Feng Wu, Renjie Chen

2022Advanced Functional Materials106 citationsDOI

Abstract

Abstract The amorphous metal boride materials are attractive catalyst for advanced lithium sulfur batteries, but their catalytic mechanism remains unclear. Herein, 2D amorphous Mo‐doped cobalt boride (Co 7 Mo 3 B) is designed for the first time as bidirectional sulfur catalysis by rapid chemical reduction. The atom cluster structure of Co 7 Mo 3 B is revealed by theoretical calculation. Electron paramagnetic resonance test further confirms that Co 7 Mo 3 B has interstitial compound structure characteristics. Experimental results show that the porous 2D nanosheets structure and the interaction of Mo, B, Co atoms contribute to enhanced conductivity, high long‐chain lithium polysulfides affinity, and reversible Li 2 S nucleation and dissociation, thus accelerating LiPSs reduction and Li 2 S oxidation kinetics. In addition, the interstitial Co 7 Mo 3 B enables intercalation of Li and B during charging–discharging while keeping the structure stable. As a result, the S cathode with Co 7 Mo 3 B catalyst delivers good life (1000 cycles at 5 C), superior rate performance (10 C). Even at high sulfur areal loading of 6.79 mg cm –2 and electrolyte/sulfur ratio of 5 μL mg –1 , the Co 7 Mo 3 B/S composite cathode still exhibits good areal capacity and capacity retention rate.

Topics & Concepts

Materials scienceSulfurCatalysisAmorphous solidCathodeElectrolyteBorideChemical engineeringInorganic chemistryPhysical chemistryCrystallographyElectrodeChemistryOrganic chemistryMetallurgyEngineeringAdvanced Battery Materials and TechnologiesAdvancements in Battery MaterialsMXene and MAX Phase Materials
2D Amorphous Mo‐Doped CoB for Bidirectional Sulfur Catalysis in Lithium Sulfur Batteries | Litcius