Electrical Conductivity in the KDP, ADP, and K1-x(NH4)xH2PO4 Crystals
AUTOR(ES)
Souza, Fabrício Mendes
FONTE
Mat. Res.
DATA DE PUBLICAÇÃO
23/02/2017
RESUMO
Impedance Spectroscopy was performed to examine the electrical conductivity on KH2PO4 KDP, (NH4)H2PO4 ADP and K1-x(NH4)xH2PO4 (x = 0.076, 0.118, 0.357, 0.857, 0.942) crystals with increasing temperature. They were grown by solvent evaporation method. Zview simulation software was used to theoretically fit electrical conductivity results as a function of frequency (1-106 Hz) and temperature (20-160 ºC) with equivalent circuits. These dielectric-type materials become ionic conductors upon heating. Proton jumps in hydrogen bonds, heavier ions migration (K+ and NH4+), and rotation and reorientation of ammonium groups contributed to electrical conduction. This conduction behavior follows the Arrhenius equation with which the activation energies were determined at different temperature ranges. For ADP-rich (x > 0.8) and pure ADP crystals the conductivities are higher than those for KDP-rich (x < 0.2) and pure KDP. Lattice defects may reduce electrical conductivities in the crystals with intermediate x composition. Complex permittivity ac and complex conductivity ac were also obtained for these crystals.
Documentos Relacionados
- Preparação e caracterização estrutural e elétrica de cristais mistos de K1-x(NH4)xH2PO4
- Obtenção e condutividade elétrica de vitrocerâmica Li1+xAlxTi2-x(PO4)3 com diferentes microestruturas
- Estudo vibracional infravermelho de compostos isomorficos : M2C2O4.X CM=K, Rb, Cs; X=H2O, H2O2)
- Determinação e análise da influência angular e eletrônica nas constantes de acoplamento nJCH em 2-X-4-t-butilcicloexanonas e 2-X-4-t-butilcicloexanóis (X=H, Me, F, Cl, Br)
- FÃnons nos sistemas RVO4 e La1-xCexPO4