Raman study of the phase transitions sequence in pure WO3 at high temperature and in HxWO3 with variable hydrogen content

E. Cazzanelli; C. Vinegoni; G. Mariotto; A. Kuzmin; J. Purans

doi:10.1016/S0167-2738(99)00101-0

Raman study of the phase transitions sequence in pure WO₃ at high temperature and in H_xWO₃ with variable hydrogen content

E. Cazzanelli^*
, C. Vinegoni
, G. Mariotto
, A. Kuzmin
, J. Purans

^*Šī darba korespondējošais autors

University of Calabria
University of Trento

Zinātniskās darbības rezultāts: Devums žurnālam › Zinātniskais raksts (žurnālā) › koleģiāli recenzēts

123 Atsauces (Scopus)

Kopsavilkums

An extensive investigation of the temperature dependence of Raman spectra has been carried out on WO₃ powders from room temperature to 800 °C. In particular the orthorhombic-to-tetragonal phase transition occurring at about 740 °C has been studied for the first time. The Raman active mode at 710 cm^-1 of the orthorhombic phase disappears from the spectrum at temperature below the phase transition point and the Raman activity in the tetragonal phase results very low. A comparative study of hydrogenated tungsten bronzes H_xWO₃ (x≤0.23), where the same transition sequence is driven by an increase of the proton concentration from x = 0 to 0.23, reveals similar behaviour of the high frequency Raman active modes, which are better resolved due to the weaker anharmonic interactions.

Oriģinālvaloda	Angļu
Lapas (no-līdz)	67-74
Lapu skaits	8
Žurnāls	Solid State Ionics
Sējums	123
Izdevuma numurs	1
DOIs	https://doi.org/10.1016/S0167-2738(99)00101-0
Publikācijas statuss	Publicēts - aug. 1999

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abstract = "An extensive investigation of the temperature dependence of Raman spectra has been carried out on WO3 powders from room temperature to 800 °C. In particular the orthorhombic-to-tetragonal phase transition occurring at about 740 °C has been studied for the first time. The Raman active mode at 710 cm-1 of the orthorhombic phase disappears from the spectrum at temperature below the phase transition point and the Raman activity in the tetragonal phase results very low. A comparative study of hydrogenated tungsten bronzes HxWO3 (x≤0.23), where the same transition sequence is driven by an increase of the proton concentration from x = 0 to 0.23, reveals similar behaviour of the high frequency Raman active modes, which are better resolved due to the weaker anharmonic interactions.",

author = "E. Cazzanelli and C. Vinegoni and G. Mariotto and A. Kuzmin and J. Purans",

year = "1999",

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T1 - Raman study of the phase transitions sequence in pure WO3 at high temperature and in HxWO3 with variable hydrogen content

AU - Cazzanelli, E.

AU - Vinegoni, C.

AU - Mariotto, G.

AU - Kuzmin, A.

AU - Purans, J.

PY - 1999/8

Y1 - 1999/8

N2 - An extensive investigation of the temperature dependence of Raman spectra has been carried out on WO3 powders from room temperature to 800 °C. In particular the orthorhombic-to-tetragonal phase transition occurring at about 740 °C has been studied for the first time. The Raman active mode at 710 cm-1 of the orthorhombic phase disappears from the spectrum at temperature below the phase transition point and the Raman activity in the tetragonal phase results very low. A comparative study of hydrogenated tungsten bronzes HxWO3 (x≤0.23), where the same transition sequence is driven by an increase of the proton concentration from x = 0 to 0.23, reveals similar behaviour of the high frequency Raman active modes, which are better resolved due to the weaker anharmonic interactions.

AB - An extensive investigation of the temperature dependence of Raman spectra has been carried out on WO3 powders from room temperature to 800 °C. In particular the orthorhombic-to-tetragonal phase transition occurring at about 740 °C has been studied for the first time. The Raman active mode at 710 cm-1 of the orthorhombic phase disappears from the spectrum at temperature below the phase transition point and the Raman activity in the tetragonal phase results very low. A comparative study of hydrogenated tungsten bronzes HxWO3 (x≤0.23), where the same transition sequence is driven by an increase of the proton concentration from x = 0 to 0.23, reveals similar behaviour of the high frequency Raman active modes, which are better resolved due to the weaker anharmonic interactions.

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