期刊
IONICS
卷 23, 期 1, 页码 169-176出版社
SPRINGER HEIDELBERG
DOI: 10.1007/s11581-016-1798-7
关键词
Inorganic materials; Cs-0.55(NH4)(0.45)H-2(PO4)(0.39)(AsO4)(0.61); Antiferroelectric-paraelectric phase transition; Superprotonic phase transition; Proton hopping mechanism
Partial substitution of P by As and of Cs by NH4, leading to the solid solution Cs1-x(NH4)(x)H-2(PO4) (y) (AsO4)(1-y), with x = 0.45 and y = 0.39 (abbreviated as CADPA) has been shown. Two phase transitions at T (1) = 204 K and T (2) = 407 K were detected and studied by dielectric measurements and impedance and modulus spectroscopy. The evolution of the dielectric constant as a function of frequency and temperature revealed that the first transition (204 K) to be first order and antiferroelectric-paraelectric. The high-temperature phase transition (407 K) leads to a superionic protonic phase, characterized by an unusual high conductivity. The conductivity relaxation parameters associated with the high-disorder protonic conduction have been determined from analysis of the MaEuro(3)/MaEuro(3) (max) spectrum measured in a wide temperature range. Transport properties in this material appear to be due to proton hopping mechanism.
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