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Improved Cycling Stability of LFP by W-Ti Co-Doping Strategy for Li-Ion Batteries

Ying‐de Huang, Yujing Chen, Peiyao Li, Qing Wen, Yuhong Luo, Hezhang Chen, Xiahui Zhang, Junchao Zheng

2024Journal of The Electrochemical Society20 citationsDOI

Abstract

Olivine-type lithium iron phosphate (LFP) is used widely as a cathode material with excellent cycling stability, thermal stability, and low cost for lithium-ion batteries in power vehicles and energy storage. However, it has inherent drawbacks that limit its further development, such as low electronic conductivity and lithium ion diffusion rate. Here, secondary spherical particles LFP-W/Ti@C were synthesized using a simple sanding and spray drying method. The pyrolysis of glucose forms a uniform and dense amorphous carbon on the surface of LFP, and the constructed three-dimensional conductive network accelerates the transfer of electrons and ions while mitigating the volume expansion during the lithiation-delithiation process. In addition, the synergistic co-doping of W/Ti achieves nanosizing of primary particles with more active sites providing locations for lithium ions storage, while reducing polarization and internal resistance and enhancing the diffusion kinetics of lithium ion. The LFP-W/Ti@C obtained after optimization still has a discharge capacity of 107.7 mAh g −1 (with a cycle retention rate of up to 100%) after 500 cycles at 5 C. This simple W/Ti co-doping strategy provides excellent rate performance and shows great potential for fast charging in electric vehicles.

Topics & Concepts

Materials scienceLithium iron phosphateDopingLithium (medication)IonInternal resistanceChemical engineeringEnergy storageThermal stabilityElectrochemistryAmorphous solidCathodeDiffusionNanotechnologyElectrodeBattery (electricity)ChemistryOptoelectronicsThermodynamicsPhysical chemistryMedicineOrganic chemistryEngineeringPhysicsPower (physics)EndocrinologyAdvancements in Battery MaterialsAdvanced Battery Materials and TechnologiesExtraction and Separation Processes
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