Xian Yuan scite author profile

We designed MoS 2 /M 2 CS 2 (M = Ti, V) heterostructures and investigated their electrochemical performances to evaluate their possibility to serve as anode materials for metal (Li/Na/K/Mg)-ion batteries (LIBs/NIBs/KIBs/MIBs) by the first-principles method. The results show that the two heterostructures are stable and exhibit metallic properties before or after adsorption of metal ions. The low diffusion barriers (below 0.4 eV) indicate that the two heterostructures have excellent rate performances for the four batteries. The theoretical capacities of heterostructures for NIBs (about 400 mAh/g) or LIBs (about 320 mAh/g) are all much higher than those for KIBs or MIBs. This demonstrates that MoS 2 /M 2 CS 2 are suitable as anode materials for NIBs/LIBs instead of KIBs/MIBs. Furthermore, the average open-circuit voltages of MoS 2 /M 2 CS 2 for NIBs are both lower than those for LIBs, and they show higher capacities for NIBs than LIBs, which further manifest that the MoS 2 /M 2 CS 2 heterostructures are more promising candidates for NIBs.

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First-principles calculations study of TiS2/Ti2CS2 heterostructure as an anode material for Li/Na/K-ion batteries

Zhang

Yuan

Peng

et al. 2022

Computational Materials Science

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Xian Yuan

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Potential Applications of MoS₂/M₂CS₂ (M = Ti, V) Heterostructures as Anode Materials for Metal-Ion Batteries

First-principles calculations study of TiS2/Ti2CS2 heterostructure as an anode material for Li/Na/K-ion batteries

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Xian Yuan

A comparative study of M2CS2 and M2CO2 MXenes as anode materials for lithium ion batteries

Potential Applications of MoS2/M2CS2 (M = Ti, V) Heterostructures as Anode Materials for Metal-Ion Batteries

First-principles calculations study of TiS2/Ti2CS2 heterostructure as an anode material for Li/Na/K-ion batteries

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Potential Applications of MoS₂/M₂CS₂ (M = Ti, V) Heterostructures as Anode Materials for Metal-Ion Batteries