The Spin-Polarized Electronic Structure of LiFePO₄ and FePO₄ Evidenced by in-Lab XPS

Abstract: LiFePO 4 has an interesting spin-polarized electronic structure showing a (3dv) 5 (3dV) 1 electron configuration of the Fe 2+ ion. In this work, we have experimentally evidenced the valence electronic structure of LiFePO 4 and of its delithiated compound FePO 4 by X-ray photoelectron spectroscopy (XPS), which allows a visualization of the occupied densities of states (DOS) in the valence band. XPS valence spectra were compared with the DOS obtained from DFT calculations by considering GGA and GGA + U approache… Show more

“…Details about this spectral shape can be found elsewhere [24]. The Fe 2p spectrum of C-LiFePO 4 reference material, showing a Fe 2p 3/2 main peak at 710 eV (peak A) and a shake-up satellite at 715 eV, is in good agreement with previous works and is characteristic of Fe 2 þ cations in the olivine structure [25,26,27].…”

“…The same evolution can be also clearly observed for the Fe 2p 1/2 component (peaks A 0 and C 0 ). A this stage it is possible to estimate the Fe 3 þ /Fe 2 þ ratio at the extreme surface of the material at about 35/65 by fitting the spectrum with a linear combination of the Fe 2p spectra of C-LiFePO 4 and C-FePO 4 reference samples (C-FePO 4 obtained from complete delithiation of C-LiFePO 4 [27]). The Mn 2p spectrum shows no significant change with respect to the starting C-LiFe 0.33 Mn 0.67 PO 4 electrode.…”

Study of C-coated LiFe0.33Mn0.67PO4 as positive electrode material for Li-ion batteries

“…Details about this spectral shape can be found elsewhere [24]. The Fe 2p spectrum of C-LiFePO 4 reference material, showing a Fe 2p 3/2 main peak at 710 eV (peak A) and a shake-up satellite at 715 eV, is in good agreement with previous works and is characteristic of Fe 2 þ cations in the olivine structure [25,26,27].…”

“…The same evolution can be also clearly observed for the Fe 2p 1/2 component (peaks A 0 and C 0 ). A this stage it is possible to estimate the Fe 3 þ /Fe 2 þ ratio at the extreme surface of the material at about 35/65 by fitting the spectrum with a linear combination of the Fe 2p spectra of C-LiFePO 4 and C-FePO 4 reference samples (C-FePO 4 obtained from complete delithiation of C-LiFePO 4 [27]). The Mn 2p spectrum shows no significant change with respect to the starting C-LiFe 0.33 Mn 0.67 PO 4 electrode.…”

Study of C-coated LiFe0.33Mn0.67PO4 as positive electrode material for Li-ion batteries

“…The Fe elemental XPS spectra of In-LFP-600 and In-LFP-700 samples are shown in Figure 3. All the spectra were fitted with three peaks, two at 710 and 714.5 eV are due to Fe 2+ ions in LiFePO 4 and the third one at 712 eV due to Fe 3+ originate mainly from FePO 4 and/or Fe 2 P in agreement with the literature values [29,30]. The amount of ferric iron in In-LFP-600 was determined to be lower (~10%) compared to In-LFP-700 (~13%) sample, which is consistent with the Mössbauer spectroscopy measurements as described in Section 2.5.…”

Optimization of Electrochemical Performance of LiFePO4/C by Indium Doping and High Temperature Annealing

“…Compared to LiFePO 4 , the value of δ decreases because the extraction of one lithium is accompanied with the decrease of one Fe3d↓ electron per Fe, changing high spin Fe 2+ (in LiFePO 4 ) into high spin Fe 3+ (in FePO 4 ). This affects the electronic structure near the Fermi level as shown by XPS and DFT calculations [25]. The observed decrease of is also related to the decrease of one Fe 3d electron per Fe that strongly influences the Fe 3d electron density shape.…”

How Mössbauer spectroscopy can improve Li-ion batteries