This article is cited in
4 papers
Phase transitions
Proton conductivity and phase composition of mixed salts in the systems $M$H$_{2}$PO$_{4}$–CsHSO$_{4}$ ($M$ = Cs, K)
I. N. Bagryantsevaa,
V. G. Ponomarevaab a Institute of Solid State Chemistry and Mechanochemistry, Siberian Branch of the Russian Academy of Sciences, Novosibirsk
b Novosibirsk State University
Abstract:
Phase transformations, electrical transport and thermal properties of the systems K
$_{1-x}$Cs
$_{x}$(H
$_{2}$PO
$_{4})_{1-x}$(HSO
$_{4})_{x}$ (
$x$ = 0.01–0.95) and Cs(H
$_{2}$PO
$_{4}$)
$_{1-x}$ (HSO
$_{4})_{x}$ (
$x$ = 0.01–0.30) have been studied in detail. It has been shown that the mixed compounds Cs(H
$_{2}$PO
$_{4}$)
$_{1-x}$(HSO
$_{4})_{x}$ are characterized by an increase in the low-temperature electrical conductivity by one to five orders of magnitude depending on the composition, as well as by the disappearance of the superionic phase transition at
$x\ge$ 0.15. The partial substitution of CsH
$_{2}$PO
$_{4}$ ions for the anions in HSO
$_{4}^{-}$ at
$x$ = 0.01–0.10 leads to the formation of Cs(H
$_{2}$PO
$_{4}$)
$_{1-x}$(HSO
$_{4})_{x}$ solid solutions isostructural with the CsH
$_{2}$PO
$_{4}$ $(P2_{1}/m)$ phase. For Cs(H
$_{2}$PO
$_{4}$)
$_{1-x}$(HSO
$_{4}$)
$_{x}$ with
$x$ = 0.15–0.30 at room temperature, there is a stabilization of the high-temperature cubic phase isostructural with the CsH
$_{2}$PO
$_{4}$ $(Pm\bar3m)$ phase existing in CsH
$_{2}$PO
$_{4}$ at temperatures above 230
$^\circ$C. The stability of the
$Pm\bar3m$ cubic phase at room temperature has been investigated using X-ray powder diffraction,
$^{1}$H spectroscopy, and impedance spectroscopy. In the K
$_{1-x}$Cs
$_{x}$(H
$_{2}$PO
$_{4})_{1-x}$(HSO
$_{4})_{x}$ system, there are two regions of compositions with
$x$ = 0.05–0.50 and 0.60–0.95, where the proton conductivity and thermal properties are determined respectively by the formation of the CsH
$_{5}$(PO
$_{4}$)
$_{2}$ phase, which is stoichiometrically different from the initial salts, and the potassium-containing phase, which is isostructural with the superionic salt Cs
$_{3}$(HSO
$_{4}$)
$_{2}$(H
$_{2}$PO
$_{4}$).
Received: 21.01.2016
Fulltext:
PDF file (583 kB)
