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Development of High-Performance Iron-Based Phosphate Cathodes toward Practical Na-Ion Batteries

Chunliu Xu, Lin Zhou, Teng Gao, Zhao Chen, Xueyan Hou, Jiao Zhang, Ying Bai, Liangrong Yang, Huizhou Liu, Chao Yang, Junmei Zhao, Yong‐Sheng Hu

2024Journal of the American Chemical Society140 citationsDOI

Abstract

Iron-based phosphate cathode of Na 4 Fe 3 (PO 4 ) 2 (P 2 O 7 ) has been regarded as a low-cost and structurally stable cathode material for Na-ion batteries (NIBs). However, their practical application is greatly hindered by the insufficient electrochemical performance and limited energy density. Here, we report a new iron-based phosphate cathode of Na 4.5 Fe 3.5 (PO 4 ) 2.5 (P 2 O 7 ) with the intergrown heterostructure of the maricite-type NaFePO 4 and orthorhombic Na 4 Fe 3 (PO 4 ) 2 (P 2 O 7 ) phases at a mole ratio of 0.5:1. Benefited from the increased composition ratio and the spontaneous activation of the maricite-type NaFePO 4 phase, the as-prepared Na 4.5 Fe 3.5 (PO 4 ) 2.5 (P 2 O 7 ) composites deliver a reversible capacity over 130 mA h g –1 and energy density close to 400 W h kg –1, which is far beyond that of the single-phase Na 4 Fe 3 (PO 4 ) 2 (P 2 O 7 ) cathode (∼120 mA h g –1 and ∼350 W h kg –1 ). Moreover, the kg-level products from the scale-up synthesis demonstrate a stable cycling performance over 2000 times at 3 C in pouch cells. We believe that our findings could show the way forward the practical application of the iron-based phosphate cathodes for NIBs.

Topics & Concepts

Iron phosphateCathodeChemistryOrthorhombic crystal systemElectrochemistryPhosphateIonPhase (matter)Chemical engineeringEnergy densityElectrodeInorganic chemistryCrystallographyPhysical chemistryEngineering physicsCrystal structureEngineeringOrganic chemistryAdvancements in Battery MaterialsAdvanced Battery Materials and TechnologiesAdvanced Battery Technologies Research
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