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Article Dans Une Revue Solid State Sciences Année : 2020

Enhancement of the piezoelectric effect in Fe-substituted GaAsO 4 : a combined XRD, Raman spectroscopy and first principles study

Résumé

GaAsO4 is the highest performance piezoelectric material of the MIIIXVO4 alpha-quartz type group. First principles based calculations of the pure FeAsO4 show that the piezoelectric properties are strongly improved by replacing Ga3+ by a chemical element of the d-bloc like Fe3+. For GaAsO4, our calculations give, d11 = 7.08 and d14 = 5.76 pC/N, while these values are significantly higher in FeAsO4 to reach d11 = 18.77 and d14 = 13.78 pC/N; about a factor of three greater than in GaAsO4 due to the increase of the elastic compliances of FeAsO4 with respect to GaAsO4. These results show that the electronic configuration and particularly the involvement of the d-orbitals in the M-O bonds in the MIIIO4 tetrahedron could be at the origin of this increasing. By considering a linear dependence of d11 or d14 between the parent compounds, GaAsO4 and FeAsO4, we get the following equations for the Ga(1-x)FexAsO4 solid solution: d11 [pC/N] = 11.689 xFe + 7.082 and d14 [pC/N] = 8.021 xFe + 5.762. These predictions motivated the first synthesis of mixed Ga(1-x)FexAsO4 solid solutions with x = 0,09; 0,18 and 0,45. The hydrated compounds, Ga1-xFexAsO4,2H2O, were obtained by hydrothermal synthesis and the alpha-quartz phases Ga1-xFexAsO4 were crystallized with a thermal treatment in an oven at 600 °C for 24h. XRD patterns show that the cell parameters are in accordance with a Vegard's law for the orthorhombic hydrated phases (Pbca space group) and for the trigonal dehydrated alpha-quartz phases (P3121 space group). Raman spectroscopy data obtained for the hydrated phases confirm the results of the literature on FeAsO4·2H2O, GaAsO4·2H2O and other arsenate analogues as well as their substituted analogues on the M and X sites. For the dehydrated alpha-quartz phases, all the main peaks observed in Raman spectra have been observed and the assigned by analyzing the experimental spectra measured in solid solutions and the calculated spectra in the parent end-member compounds. DFT calculations were used to identify the Raman vibrational modes. As in the case of GaAsO4, no libration mode of oxygen atoms is present for FeAsO4 that could lead to a very high thermal stability. These results prove the interest of α-quartz type FexGa1-xAsO4 solid solutions.
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Dates et versions

hal-03017460 , version 1 (20-11-2020)

Identifiants

Citer

D. Zheng, P. Roumanille, P. Hermet, M. Cambon, J. Haines, et al.. Enhancement of the piezoelectric effect in Fe-substituted GaAsO 4 : a combined XRD, Raman spectroscopy and first principles study. Solid State Sciences, 2020, 101, pp.106157. ⟨10.1016/j.solidstatesciences.2020.106157⟩. ⟨hal-03017460⟩
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