Spectroscopy of structurally disordered hydrated iron fluoridotitanate in the regions of vibrational and electronic excitations

“…The influence of D 2 O leads to the shift of ν s (TiF 6 Þ mode from 601 cm À1 in the hydrated sample to 611 cm À1 in a deuterated one. In a recent article, [12] we have shown that the width of 601 cm À1 Raman line in HITF remains practically constant upon cooling that indicates orientational order of TiF 6 octahedra. [22,23] In Figure 2a,c, one can see that in DITF, wavenumbers of 611 and 291 cm À1 modes practically linearly decrease with an increase in temperature.…”

“…A single anomaly on the DSC-signal reproducible in heating and cooling was detected, with a temperature hysteresis (ΔT ≈ 5 K), indicating a reversible phase transition of the first order. The phase transition temperature in the FeTiF 6 Á xH 2 O Á yD 2 O is 283 K. So, the replacement for H 2 O/D 2 O resulted in a light change of the transition temperature since in FeTiF 6 Á 6H 2 O it was 272 K. [12] The enthalpy and entropy of the phase transition in DITF were found from the DSC-data to be 2.1 J/g (710 J/ mol) and 2.5 J/(molÁK), respectively. The entropy change was more than 0.2R, which may indicate a significant change in the structure during the phase transition.…”

“…Raman scattering spectra of FeÁ6H 2 O were recently considered. [12] Stretching mode of the water molecule at 3500 cm À1 becomes split into the doublet below 100 K (Figure 5), which evidences on the ordering of FeO 6 octahedra with the reconstruction of hydrogen bonds O-H…F. Spectral profile of vibrations of FeÁ6D 2 O unit exhibits differences with that of FeÁ6H 2 O; at low temperatures, the multiplet of bands is observed in Figure 5; the parameters of Raman lines with the participation of D 2 O are presented in Table 1.…”

“…The system of hydrogen bonds O-H…F is significantly reconstructed with the phase transition. [12] In the room temperature (RT) structure, they are distributed into three groups: d(O-F) = 2.69, 2.75, and 2.83 Å. The O-F (2.75 Å) bonds link the TiF 6 and Fe(H 2 O) 6 octahedra into chains along the c axis, the O-F (2.69 Å) join the chains into layers parallel to the (110) plane, and the O-F bonds at 2.83 Å are realized between polyhedron atoms of different orientations.…”

“…Analysis of these results makes it possible to state that the phase transition in FeTiF 6 Á 6H 2 O is of a dynamic nature and is associated with a rotational ordering of iron-water octahedra with a decrease in temperature. [12] Contrariwise, the mobility of ½TiF 6 2À sublattice plays no critical role. However, such peculiarities like the manifestation of phase transition at 272 K in the Raman spectra only below 100 K, and the absence of narrowing of Raman line 601 cm À1 corresponding to the totally symmetric vibration A 1g ½TiF 6 2À , still draw attention to the crystal in question.…”

Dynamic processes of the water sublattice in FeTiF6·xH2O·yD2O crystal

“…The influence of D 2 O leads to the shift of ν s (TiF 6 Þ mode from 601 cm À1 in the hydrated sample to 611 cm À1 in a deuterated one. In a recent article, [12] we have shown that the width of 601 cm À1 Raman line in HITF remains practically constant upon cooling that indicates orientational order of TiF 6 octahedra. [22,23] In Figure 2a,c, one can see that in DITF, wavenumbers of 611 and 291 cm À1 modes practically linearly decrease with an increase in temperature.…”

“…A single anomaly on the DSC-signal reproducible in heating and cooling was detected, with a temperature hysteresis (ΔT ≈ 5 K), indicating a reversible phase transition of the first order. The phase transition temperature in the FeTiF 6 Á xH 2 O Á yD 2 O is 283 K. So, the replacement for H 2 O/D 2 O resulted in a light change of the transition temperature since in FeTiF 6 Á 6H 2 O it was 272 K. [12] The enthalpy and entropy of the phase transition in DITF were found from the DSC-data to be 2.1 J/g (710 J/ mol) and 2.5 J/(molÁK), respectively. The entropy change was more than 0.2R, which may indicate a significant change in the structure during the phase transition.…”

“…Raman scattering spectra of FeÁ6H 2 O were recently considered. [12] Stretching mode of the water molecule at 3500 cm À1 becomes split into the doublet below 100 K (Figure 5), which evidences on the ordering of FeO 6 octahedra with the reconstruction of hydrogen bonds O-H…F. Spectral profile of vibrations of FeÁ6D 2 O unit exhibits differences with that of FeÁ6H 2 O; at low temperatures, the multiplet of bands is observed in Figure 5; the parameters of Raman lines with the participation of D 2 O are presented in Table 1.…”

“…The system of hydrogen bonds O-H…F is significantly reconstructed with the phase transition. [12] In the room temperature (RT) structure, they are distributed into three groups: d(O-F) = 2.69, 2.75, and 2.83 Å. The O-F (2.75 Å) bonds link the TiF 6 and Fe(H 2 O) 6 octahedra into chains along the c axis, the O-F (2.69 Å) join the chains into layers parallel to the (110) plane, and the O-F bonds at 2.83 Å are realized between polyhedron atoms of different orientations.…”

“…Analysis of these results makes it possible to state that the phase transition in FeTiF 6 Á 6H 2 O is of a dynamic nature and is associated with a rotational ordering of iron-water octahedra with a decrease in temperature. [12] Contrariwise, the mobility of ½TiF 6 2À sublattice plays no critical role. However, such peculiarities like the manifestation of phase transition at 272 K in the Raman spectra only below 100 K, and the absence of narrowing of Raman line 601 cm À1 corresponding to the totally symmetric vibration A 1g ½TiF 6 2À , still draw attention to the crystal in question.…”

Dynamic processes of the water sublattice in FeTiF6·xH2O·yD2O crystal

Editorial on the special issue of JRS on vibrational spectroscopy of water

Unraveling dynamic Jahn-Teller effect and magnetism in FeTiF6×6H2O single crystal