2021
DOI: 10.1021/acs.chemmater.0c04793
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Strain-Induced Anion-Site Occupancy in Perovskite Oxyfluoride Films

Abstract: Anionic ordering is a promising route to engineer physical properties in functional heteroanionic materials. A central challenge in the study of anion-ordered compounds lies in developing robust synthetic strategies to control anion occupation and in understanding the resultant implications for electronic structure. Here, we show that epitaxial strain induces preferential occupation of F and O on the anion sites in perovskite oxyfluoride SrMnO2.5-δFγ films grown on different substrates. Under compressive strai… Show more

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Cited by 13 publications
(12 citation statements)
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“…The bond valence sum analysis and our understanding of strain suggest that F occupancy of equatorial X 1 sites is certainly possible in Bi 2 TiO 4 F 2 and is consistent with the conclusions of Needs et al However, this contrasts with several other n = 1 Aurivillius and Ruddlesden-Popper oxyfluorides including Bi 2 NbO 5 F, Sr 2 ScO 3 F, and Sr 2 MnO 3 F, which are reported to have F occupancy of apical anion sites despite similar arguments involving stacking strain between [Bi 2 O 2 ] 2+ and Nb­(O,F) 2 layers ( a p = 3.95 Å and a p = 4.08 Å for F – in equatorial X 1 or apical X 2 sites, respectively) or between SrO and Mn­(O,F) 2 layers (ideal a SrO ≈ 3.65 Å; for Sr 2 ScO 3 F a p = 4.12 Å and a p = 4.19 Å for F – in equatorial or apical sites, respectively; for Sr 2 MnO 3 F a p = 3.86 Å and a p = 3.99 Å for F – in equatorial or apical sites, respectively). It is striking that Bi 2 TiO 4 F 2 has relatively small stacking strain compared to these examples, suggesting the possibility that anion distribution might be tuned by strain engineering, for example . Wider consideration of the bonding in Bi 2 TiO 4 F 2 , beyond the purely ionic model, may also be relevantparticularly given the importance of pπ dπ B –O bonding (often reflected in shorter B –O bonds) that can influence the stereochemistry in oxyfluorides .…”
Section: Discussionmentioning
confidence: 92%
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“…The bond valence sum analysis and our understanding of strain suggest that F occupancy of equatorial X 1 sites is certainly possible in Bi 2 TiO 4 F 2 and is consistent with the conclusions of Needs et al However, this contrasts with several other n = 1 Aurivillius and Ruddlesden-Popper oxyfluorides including Bi 2 NbO 5 F, Sr 2 ScO 3 F, and Sr 2 MnO 3 F, which are reported to have F occupancy of apical anion sites despite similar arguments involving stacking strain between [Bi 2 O 2 ] 2+ and Nb­(O,F) 2 layers ( a p = 3.95 Å and a p = 4.08 Å for F – in equatorial X 1 or apical X 2 sites, respectively) or between SrO and Mn­(O,F) 2 layers (ideal a SrO ≈ 3.65 Å; for Sr 2 ScO 3 F a p = 4.12 Å and a p = 4.19 Å for F – in equatorial or apical sites, respectively; for Sr 2 MnO 3 F a p = 3.86 Å and a p = 3.99 Å for F – in equatorial or apical sites, respectively). It is striking that Bi 2 TiO 4 F 2 has relatively small stacking strain compared to these examples, suggesting the possibility that anion distribution might be tuned by strain engineering, for example . Wider consideration of the bonding in Bi 2 TiO 4 F 2 , beyond the purely ionic model, may also be relevantparticularly given the importance of pπ dπ B –O bonding (often reflected in shorter B –O bonds) that can influence the stereochemistry in oxyfluorides .…”
Section: Discussionmentioning
confidence: 92%
“…The final arrangement, (C), is interesting because it results in a polar Ti­(O 1/2 F 1/2 ) ap (O 2/2 F 2/2 ) eq corner-linked octahedra, that is, either mer- or fac- [TiO 3 F 3 ] units (Figure c). The bond valence sum and GII analysis described above for Bi 2 TiO 4 F 2 suggest that while arrangement (A) is most favored, the difference between arrangements (A) and (B) is small and so (C) might occur over short length scales or could be accessed by strain engineering as demonstrated in strontium manganese oxyfluoride films …”
Section: Discussionmentioning
confidence: 99%
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“…TM oxyfluorides (OF) possess unique characteristics, including optical properties, catalytic activity, and electrical conductivity [ 58 , 99 , 100 ]. It is interesting to note that the intrinsically weak conductivity of metal–fluorides can be improved by introducing metal–oxygen (M–O) bonds, because the high ionicity of metal–fluorine (M–F) bonds can be well adjusted by high covalent M–O bonds.…”
Section: Electrocatalytic Performance Of Anion-mixed Electrocatalystsmentioning
confidence: 99%