Abstract

Effects of compression on the Raman and IR modes of KOH(D), RbOH(D) and CsOH(D) have been measured at pressures up to 20 GPa and temperatures down to 100 K using the diamond anvil technique. For all three hydroxides an ordering transition into the respective hydrogen-bonded low-temperature phases was found below 1 GPa at room temperature. In addition, the spectra of KOH(D) and RbOH(D) show significant changes at pressures above 6.5 GPa, which point to the existence of a new phase. The decrease in frequency of the IR- and Raman-active O-H(D) stretching vibrations with increasing compression indicates that hydrogen bonds exist also in the new high-pressure phase VI. The variation of the 0-0 distance at the phase transition IV implies VI is estimated by using a double-minimum potential.

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