Two-Dimensional Fluorine Distribution in a Heavily Distorted Perovskite Nickel Oxyfluoride Revealed by First-Principles Calculation

Abstract: Most perovskite oxyfluorides synthesized to date have cubic structures, wherein fluorine atoms tend to reside at every oxygen site randomly. In this theoretical study, we show a twodimensional fluorine arrangement in a perovskite nickel oxyfluoride (NdNiO 2 F) with a large orthorhombic distortion. The site selectivity in the perovskite lattice is due to the orthorhombicity, which stabilizes the two-dimensional cis configurations with shorter Ni−O and longer Ni−F bonds to minimize the electrostatic energy. The … Show more

“…Nevertheless, by using penalties for both cation and anion sites, most structures refined to give Ti–O bonds shorter than Ti–F bonds. This is consistent with structures reported for NdNiO 2 F, 75 α- A 3 MoO 3 F 3 ( A = Rb and K), 1 , 4 and other oxyfluorides. 19 For both Γ 3 – and M 3 – apical ordering, the GII results in Table 2 and Figure 7 suggest that, in general, the fac structures are less strained than the equivalent mer structures, which is again consistent with the importance of pπ dπ bonding between oxygen and d 0 cations, favoring cis and fac isomers with shorter Ti–O bonds.…”

Symmetry and the Role of the Anion Sublattice in Aurivillius Oxyfluoride Bi₂TiO₄F₂

“…Nevertheless, by using penalties for both cation and anion sites, most structures refined to give Ti–O bonds shorter than Ti–F bonds. This is consistent with structures reported for NdNiO 2 F, 75 α- A 3 MoO 3 F 3 ( A = Rb and K), 1 , 4 and other oxyfluorides. 19 For both Γ 3 – and M 3 – apical ordering, the GII results in Table 2 and Figure 7 suggest that, in general, the fac structures are less strained than the equivalent mer structures, which is again consistent with the importance of pπ dπ bonding between oxygen and d 0 cations, favoring cis and fac isomers with shorter Ti–O bonds.…”

Symmetry and the Role of the Anion Sublattice in Aurivillius Oxyfluoride Bi₂TiO₄F₂

“…5. The total energies are roughly proportional to the electrostatic potentials, consistent with a previous systematic study on NdNiO 2 F by simulations [46]. Meanwhile, the F-in-site6 cannot be fully explained by the Pauling's second law (structural stabilization via electrostatic gain), requiring us to investigate further the origin of the F-in-site6 stabilization.…”

O/F anion order in Pb$_2$Ti$_4$O$_9$F$_2$ stabilized by the 6$s^2$ lone pair electrons of Pb$^{2+}$

“…The total energies are roughly proportional to the electrostatic energies, consistent with a previous systematic study on NdNiO 2 F by simulations. 49 However, F-in-site6, which had the lowest total energy, is an exception to Pauling's second rule 28 because the lowest electrostatic energy was predicted for the F-in-site5. The reason of the small deviation (∼0.1 eV per f.u.)…”

Anionic ordering in Pb₂Ti₄O₉F₂ revisited by nuclear magnetic resonance and density functional theory