Qizhi Chen

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Dually encapsulated LiMn0.6Fe0.4PO4 architecture with MXenes and amorphous carbon to achieve high-performance and ultra-stable lithium batteries

Jan 21, 2025 | pubs.rsc.org | Haidong Zhong |Tingting Hu |Qizhi Chen |Jun Du

Dually encapsulated LiMn0.6Fe0.4PO4 architecture with MXenes and amorphous carbon to achieve high-performance and ultra-stable lithium batteries† LiMnxFe1−xPO4 (LMFP) materials, with their high energy density and excellent cycle stability, are promising cathode materials for electric vehicles and other high-energy-density applications. However, the low lithium-ion diffusion coefficient and poor electronic conductivity limit the further development of LMFP.
Dually Encapsulated LiMn0.6Fe0.4PO4 Architecture with MXene and Amorphous Carbon to Achieve High-performance and Ultra-stable Lithium Battery

Nov 4, 2024 | pubs.rsc.org | Haidong Zhong |Tingting Hu |Qizhi Chen |Jun Du

Dually Encapsulated LiMn0.6Fe0.4PO4 Architecture with MXene and Amorphous Carbon to Achieve High-performance and Ultra-stable Lithium Battery LiMnxFe1-xPO4 (LMFP) materials, with their high energy density and excellent cycle stability, are promising cathode materials for electric vehicles and other high-energy-density applications. However, the low lithium-ion diffusion coefficient and poor electronic conductivity limit the further development of LMFP.

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