Protonic conductivity and ferroelastic instability in triammonium hydrogen disulphate: a dielectric and neutron diffraction study

Abstract: The protonic conductivity of has been measured using the complex-admittance method in the frequency range 30 Hz-200 MHz and the temperature interval 290-500 K covering both the ferroelastic and the paraelastic phases. The dc conductivity shows quasi-two-dimensional behaviour and in the trigonal paraelastic phase its values in the (001) plane are typically super-protonic with low activation enthalpy . The temperature dependence of the monoclinic superstructure reflection 120 has been studied using elastic n… Show more

“…However, these narrowing effects lie truly in the phase transition temperature range. Moreover, at T c the proton conductivity in the ab-plane increases from 10 −3 to 10 −2 S cm −1 [8]. Theor.…”

“…In the trigonal paraelastic phase the centers of the three SO· · · H-OS bonds are distributed over the 9e Wyckoff positions forming a dynamically disordered hydrogen bond network. This effect enables a superprotonic conductivity of σ dc a = σ dc b = 10 −2 S cm −1 in the (001) plane [8][9][10]. Substantial conductivity exists also perpendicular to the (001) plane along the trigonal c-axis (σ dc c = 10 −4 S cm −1 ).…”

“…The thermodynamic behavior can be described by means of higher terms in the Landau potential of the Gibbs free enthalpy appropriate to a Slater instability [7]. Neutron diffraction and dielectric studies show the formation of precursor phenomena above the phase transition temperature, which means that remaining domains of the ferroelastic phase still exist in the paraelastic phase [8]. Details of these effects have not been investigated extensively.…”

Proton Dynamics in Letovicite, (NH4)3H(SO4)2: A 1H and 14N NMR Spectroscopic Study

“…However, these narrowing effects lie truly in the phase transition temperature range. Moreover, at T c the proton conductivity in the ab-plane increases from 10 −3 to 10 −2 S cm −1 [8]. Theor.…”

“…In the trigonal paraelastic phase the centers of the three SO· · · H-OS bonds are distributed over the 9e Wyckoff positions forming a dynamically disordered hydrogen bond network. This effect enables a superprotonic conductivity of σ dc a = σ dc b = 10 −2 S cm −1 in the (001) plane [8][9][10]. Substantial conductivity exists also perpendicular to the (001) plane along the trigonal c-axis (σ dc c = 10 −4 S cm −1 ).…”

“…The thermodynamic behavior can be described by means of higher terms in the Landau potential of the Gibbs free enthalpy appropriate to a Slater instability [7]. Neutron diffraction and dielectric studies show the formation of precursor phenomena above the phase transition temperature, which means that remaining domains of the ferroelastic phase still exist in the paraelastic phase [8]. Details of these effects have not been investigated extensively.…”

Proton Dynamics in Letovicite, (NH4)3H(SO4)2: A 1H and 14N NMR Spectroscopic Study

“…Other layers composed of isolated [NH 4 + ] tetrahedra alternate with them and provide the necessary charge balance. 2 The high-temperature phase I of (NH 4 ) 3 H(SO 4 ) 2 is of special interest due to its elevated protonic conductivity (9). Two independent structure determinations have been carried out.…”

The Disordered High-Temperature Structure of (NH4)3H(SO4)2 and Its Relationship to the Room-Temperature Phase

“…Crystals, which belong to family M 3 H(XO 4 ) 2 , where M = NH 4 , Rb, Cs, K; X = S, Se, exhibit a high proton conductivity [1][2][3][4][5][6][7]. The crystal structure of K 3 H(SO 4 ) 2 (KHS) was determined by X-ray diffraction [8,9].…”

EPR Study of VO²⁺Center in Fast Proton Conductor K₃H(SO₄)₂