Electrical conductivity and vibrational studies induced phase transitions in [(C(2)H(5))(4)N]FeCl(4)

The compound, tetraethylammonium tetrachloroferrate [(C(2)H(5))(4)N]FeCl(4), was prepared by slow evaporation at room temperature. It was characterized by X-ray powder diffraction, thermal analysis, and impedance and vibrational spectroscopy. X-ray diffraction data confirmed formation of a single phase material which crystallized at room temperature in the hexagonal system (P6(3)mc space group). DSC showed the existence of two phase transitions at 413 K and 430 K. Electrical conductivity was measured in the temperature and frequency ranges of 390 K to 440 K and 40 Hz to 110 MHz, respectively. Nyquist plots revealed the existence of grains and grain boundaries that were fitted to an equivalent circuit. AC conductivity plots were analyzed by Jonscher's power law. Variations in the “s” values indicated that CBH models describe the conduction mechanism in regions I and II. Temperature dependence of Raman spectra showed that the most important changes were observed in the cationic parts ([(C(2)H(5))(4)N](+)). The activation energy value obtained from the line width decreased which indicated an order–disorder model.