2019
DOI: 10.3389/fchem.2019.00353
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Reversible Control of the Mn Oxidation State in SrTiO3 Bulk Powders

Abstract: We demonstrate a low-temperature reduction method for exhibiting fine control over the oxidation state of substitutional Mn ions in strontium titanate (SrTiO 3 ) bulk powder. We employ NaBH 4 as the chemical reductant that causes significant changes in the oxidation state and oxygen vacancy complexation with Mn 2+ dopants at temperatures <350°C where lattice reduction is negligible. At higher reduction temperatures, we also observe the format… Show more

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Cited by 17 publications
(15 citation statements)
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References 41 publications
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“…According to the reported studies, the main sextet are attributed to the characteristic peaks of Mn 4+ because the isotropic g value is ∼1.996. In this work, Mn 2+ occupying the Zn site does not result in valence imbalance; thus, the oxygen defect does not appear; hence, the second group of weaker sextet peaks appearing around g = 2.00 is caused by the hyperfine coupling between the nuclear spin of Mn ( I = +5/2) and the 3d electron of Mn 2+ ions. , The characteristic peaks of Mn 2+ and Mn 4+ have been labeled in detail in the range of 320–330 mT, as shown in the inset, which is in good agreement with the results observed for SrTiO 3 bulk powders containing Mn 4+ and Mn 2+ ions. , The relative intensity of the characteristic peaks of Mn 4+ enhances with an increase in the Mg 2+ /Ge 4+ content ( x value), indicating more Mn 4+ and less Mn 2+ ions in the samples at a higher Mg 2+ /Ge 4+ content.…”
Section: Resultssupporting
confidence: 88%
See 1 more Smart Citation
“…According to the reported studies, the main sextet are attributed to the characteristic peaks of Mn 4+ because the isotropic g value is ∼1.996. In this work, Mn 2+ occupying the Zn site does not result in valence imbalance; thus, the oxygen defect does not appear; hence, the second group of weaker sextet peaks appearing around g = 2.00 is caused by the hyperfine coupling between the nuclear spin of Mn ( I = +5/2) and the 3d electron of Mn 2+ ions. , The characteristic peaks of Mn 2+ and Mn 4+ have been labeled in detail in the range of 320–330 mT, as shown in the inset, which is in good agreement with the results observed for SrTiO 3 bulk powders containing Mn 4+ and Mn 2+ ions. , The relative intensity of the characteristic peaks of Mn 4+ enhances with an increase in the Mg 2+ /Ge 4+ content ( x value), indicating more Mn 4+ and less Mn 2+ ions in the samples at a higher Mg 2+ /Ge 4+ content.…”
Section: Resultssupporting
confidence: 88%
“…46,51 The characteristic peaks of Mn 2+ and Mn 4+ have been labeled in detail in the range of 320−330 mT, as shown in the inset, which is in good agreement with the results observed for SrTiO 3 bulk powders containing Mn 4+ and Mn 2+ ions. 51,52 The relative intensity of the characteristic peaks of Mn 4+ enhances with an increase in the Mg 2+ /Ge 4+ content (x value), indicating more Mn 4+ and less Mn 2+ ions in the samples at a higher Mg 2+ /Ge 4+ content. The Raman spectra of ZGMGM (x = 0−1) samples are shown in Figure 3d.…”
Section: Methodssupporting
confidence: 86%
“…Oxygen, which has a standard reduction potential of +0.82 V vs NHE at pH 7, is a possible cause for such defects in SrTiO 3 . Adsorbed dioxygen species are commonly detected on SrTiO 3 surfaces by electron paramagnetic resonance (EPR) (superoxide) and XPS. , Superoxide adsorbates (O 2 – ) form as a result of the reaction with Ti 3+ oxygen vacancy species in the SrTiO 3 lattice. On SrTiO 3 (111) single-crystal facets, this causes a Fermi shift of 0.8 eV in oxidizing direction .…”
Section: Resultsmentioning
confidence: 99%
“…The nanoparticle concentrations seemed to have no clear relation to this phenomenon. The possible explanation to this fact may be the dye-particle interactions [50], changes in numerous enzymes, energy homeostasis, or oxidative stress [41]. Although a preliminary experiment showed no interaction between the particles and MTT in an acellular system, the other potential factors could not be entirely excluded [51].…”
Section: Luminescent Thermometrymentioning
confidence: 99%
“…The first step consisted of the precipitation of monodisperse hydroxycarbonates using an excess of urea and a precipitation temperature up to 90 • C. In the second step, the pH of the aqueous hydroxycarbonates slurry was reduced to pH = 4. The slightly acidic condition prevented the formation of a core-shell type material as in the case of the synthesis shown in [41]. Metal hydroxycarbonates were synthesized via homogeneous precipitation of lanthanide nitrates and manganese carbonate.…”
Section: Synthesismentioning
confidence: 99%