Electric Polarization and Magnetic Properties of (NH4)1-xKxI (x = 0.05-0.17)
Abstract
While all of the polymorphs of pure NH4I and KI are non-polar, we identify that (NH4)0.95K0.05I is ferroelectric and (NH4)0.87K0.13I and (NH4)0.83K0.17I are pyroelectric through measurements of their pyroelectric current and complex dielectric constant. The order to disorder phase transitions occur near 245 K. Magnetic susceptibility measurements indicate that the proton orbitals of the NH4+ continue to become ordered in the ground state in the (NH4)1-xKxI system up to x <= 0.17. The polar phases are proposed to stem from K+ ions disrupting the symmetry of proton-orbital-lattice interactions between the NH4+ and I- ions. Our work introduces a new pathway for the ordered phases of ammonium-based compounds to potentially become ferroelectric.
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