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Hydroxyl Defects in LiFePO<sub>4</sub> Cathode Material: DFT+<i>U</i> and an Experimental Study

Dmitry A. Aksyonov, Irina Varlamova, Ivan A. Trussov, Aleksandra A. Savina, Anatoliy Senyshyn, Keith J. Stevenson, Artem M. Abakumov, Andriy Zhugayevych, Stanislav S. Fedotov

2021Inorganic Chemistry24 citationsDOI

Abstract

Lithium iron phosphate, LiFePO4, a widely used cathode material in commercial Li-ion batteries, unveils a complex defect structure, which is still being deciphered. Using a combined computational and experimental approach comprising density functional theory (DFT)+U and molecular dynamics calculations and X-ray and neutron diffraction, we provide a comprehensive characterization of various OH point defects in LiFePO4, including their formation, dynamics, and localization in the interstitial space and at Li, Fe, and P sites. It is demonstrated that one, two, and four (five) OH groups can effectively stabilize Li, Fe, and P vacancies, respectively. The presence of D (H) at both Li and P sites for hydrothermally synthesized deuterium-enriched LiFePO4 is confirmed by joint X-ray and neutron powder diffraction structure refinement at 5 K that also reveals a strong deficiency of P of 6%. The P occupancy decrease is explained by the formation of hydrogarnet-like P/4H and P/5H defects, which have the lowest formation energies among all considered OH defects. Molecular dynamics simulation shows a rich structural diversity of these defects, with OH groups pointing both inside and outside vacant P tetrahedra creating numerous energetically close conformers, which hinders their explicit localization with diffraction-based methods solely. The discovered conformers include structural water molecules, which are only by 0.04 eV/atom H higher in energy than separate OH defects.

Topics & Concepts

ChemistryCrystallographyNeutron diffractionDensity functional theoryLithium (medication)Molecular dynamicsConformational isomerismLithium atomMoleculeAtom (system on chip)IonCrystal structureComputational chemistryIonizationOrganic chemistryEndocrinologyComputer scienceEmbedded systemMedicineAdvancements in Battery MaterialsX-ray Diffraction in CrystallographyElectron and X-Ray Spectroscopy Techniques