Textured Asymmetric Membrane Electrode Assemblies of Piezoelectric Phosphorene and Ti 3 C 2 T x MXene Heterostructures for Enhanced Electrochemical Stability and Kinetics in LIBs

Black phosphorus with a superior theoretical capacity (2596 mAh g ) and high conductivity is regarded as one of the powerful candidates for lithium-ion battery (LIB) anode materials, whereas the severe volume expansion and sluggish kinetics still impede its applications in LIBs. By contrast, the exf...

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Veröffentlicht in:Nano-micro letters 2024-01, Vol.16 (1), p.79
Hauptverfasser: Li, Yihui, Xie, Juan, Wang, Ruofei, Min, Shugang, Xu, Zewen, Ding, Yangjian, Su, Pengcheng, Zhang, Xingmin, Wei, Liyu, Li, Jing-Feng, Chu, Zhaoqiang, Sun, Jingyu, Huang, Cheng
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Sprache:eng
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Zusammenfassung:Black phosphorus with a superior theoretical capacity (2596 mAh g ) and high conductivity is regarded as one of the powerful candidates for lithium-ion battery (LIB) anode materials, whereas the severe volume expansion and sluggish kinetics still impede its applications in LIBs. By contrast, the exfoliated two-dimensional phosphorene owns negligible volume variation, and its intrinsic piezoelectricity is considered to be beneficial to the Li-ion transfer kinetics, while its positive influence has not been discussed yet. Herein, a phosphorene/MXene heterostructure-textured nanopiezocomposite is proposed with even phosphorene distribution and enhanced piezo-electrochemical coupling as an applicable free-standing asymmetric membrane electrode beyond the skin effect for enhanced Li-ion storage. The experimental and simulation analysis reveals that the embedded phosphorene nanosheets not only provide abundant active sites for Li-ions, but also endow the nanocomposite with favorable piezoelectricity, thus promoting the Li-ion transfer kinetics by generating the piezoelectric field serving as an extra accelerator. By waltzing with the MXene framework, the optimized electrode exhibits enhanced kinetics and stability, achieving stable cycling performances for 1,000 cycles at 2 A g , and delivering a high reversible capacity of 524 mAh g at - 20 ℃, indicating the positive influence of the structural merits of self-assembled nanopiezocomposites on promoting stability and kinetics.
ISSN:2150-5551