2020
DOI: 10.26434/chemrxiv.11416374
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Deciphering the oxygen absorption pre-edge: a caveat on its application for probing oxygen redox reactions in batteries

Abstract: <div>The pre-edges of oxygen-K X-ray absorption spectra have been ubiquitous in transition metal (TM) oxide studies in various fields, especially on the fervent topic of oxygen redox states in battery electrodes. However, critical debates remain on the use of the O-K pre-edge variations upon electrochemical cycling as evidences of oxygen redox reactions, which has been a popular practice in the battery field. This study presents an investigation of the O-K pre-edge of 55 oxides covering all 3d TMs with d… Show more

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Cited by 6 publications
(9 citation statements)
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“…Additionally, some unconventional states that are triggered by electrochemical cycling cannot be sensed through conventional sXAS, as elaborated in this review through several examples of both TMs and O. In particular, we have clarified that sXAS is not conclusive for characterizing the O redox states because the intensity and the lineshape of the O- K sXAS are both dominated by TM characters through strong hybridization effects (Yang and Devereaux, 2018 ; Zhuo et al, 2019 ; Roychoudhury et al, 2020 ). In order to tackle these technical limitations of sXAS in both its FY lineshape distortion and its lack of chemical sensitivity, high-efficiency mapping of resonant inelastic X-ray scattering (mRIXS) has been developed.…”
Section: Introductionmentioning
confidence: 85%
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“…Additionally, some unconventional states that are triggered by electrochemical cycling cannot be sensed through conventional sXAS, as elaborated in this review through several examples of both TMs and O. In particular, we have clarified that sXAS is not conclusive for characterizing the O redox states because the intensity and the lineshape of the O- K sXAS are both dominated by TM characters through strong hybridization effects (Yang and Devereaux, 2018 ; Zhuo et al, 2019 ; Roychoudhury et al, 2020 ). In order to tackle these technical limitations of sXAS in both its FY lineshape distortion and its lack of chemical sensitivity, high-efficiency mapping of resonant inelastic X-ray scattering (mRIXS) has been developed.…”
Section: Introductionmentioning
confidence: 85%
“…To decipher the O redox mechanisms, a direct and reliable spectroscopic probe of the intrinsic O electronic states is essential. While O- K sXAS has been popularly employed in the studies of O redox (Oishi et al, 2015 , 2016 ; Luo et al, 2016a , b ; Ma et al, 2017 ), it has been clarified that the pre-edge feature evolution in both the intensity and lineshape is largely determined by the TM states, which is hard to be distinguished from the oxygen redox states (Yang and Devereaux, 2018 ; Roychoudhury et al, 2020 ). In principle, mRIXS has an additional ability of resolving the fluorescence along the emission energy and thus is capable to disentangle the two features (Qiao et al, 2017 ).…”
Section: O Redox In Sodium-ion Battery Cathodesmentioning
confidence: 99%
“…17 This feature gets enhanced at the charged state due to the enhancement of the hybridization at highly oxidized states, corresponding to the O-K XAS pre-edge feature enhancement upon charging. 7,10 Second, at the charged state, a new feature emerges around 530−532 excitation energy and around 523.8 eV emission energy (I in Figure 1c), with another concurrent enhancement of the intensity close to the elastic line at the same excitation energy (III in Figure 1c). Both features, I and III, are signatures of oxidized oxygen states 17 and disappear in the discharged state (Figure 1d), indicating a reversible oxygen redox reaction.…”
mentioning
confidence: 95%
“…7,10 Therefore, the key technical challenge for detecting the intrinsic oxidized oxygen state is to separate its signature from the strong TM-O hybridization signals that are largely of TM nature. 7 Fortunately, high-efficiency mapping of resonant inelastic X-ray scattering (mRIXS) has been developed and has been shown to be able to solve this technical challenge by resolving the energies of the emitted photons, that is, the emission energy, at each excitation energy across the absorption edge. 11,12 Two groups of mRIXS features are associated with the oxidized oxygen state in oxide cathodes: (i) a relatively sharp feature around the 531 eV excitation energy and 523 to 524 eV emission energy 10,11,13−15 and (ii) an enhanced feature with low energy loss close to the elastic line at the same excitation energy.…”
mentioning
confidence: 99%
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