AI Article Synopsis
- The study investigates the crystal structures of pure and doped KLnF(4) compounds under varying temperature and pressure using advanced diffraction techniques.
- Both KHoF(4) and KErF(4) have a specific crystal arrangement (space group P3(1)), while others like KTmF(4) and KYF(4) crystallize in a different arrangement (P3(2)).
- Notably, KYF(4) maintains its structure without transitioning to another phase at low temperatures, but does experience significant changes under high pressure, specifically around 4 GPa, leading to fragmentation of the crystals.
Article Abstract
Crystal structures of pure and doped KLnF(4) (Ln = Y, Ho, Er, Tm, Yb) grown hydrothermally were studied with synchrotron single-crystal and powder diffraction as a function of temperature and pressure. At atmospheric conditions, KHoF(4) and KErF(4) crystallize in space group P3(1), while KTmF(4), Er:KYbF(4), and KYF(4) crystallize in space group P3(2). In both enantiomorphic structures, the K(+) and Ln(3+) cations are completely ordered. The pseudo-symmetry of the structures with respect to the two minimal supergroups k = 3 (P3(1) and P3(2)) and t = 2 (P3(1)12 and P3(2)12) increases with decreasing radius of the Ln(3+) cation, respectively. No phase transition is detected in KYF(4) at low temperatures down to 100 K at atmospheric pressure. Er:KYbF(4) and KYF(4) undergo irreversible pressure-induced phase transitions at about 4 GPa. In each case, the single crystals become fragmented into several crystallites as observed during single-crystal measurements in diamond anvil cells. Up to the phase transitions, both Er:KYbF(4) and KYF(4) are more compressible along the c axis and their bulk compressibility predominantly results from the contraction of the KF(8) polyhedra. The application of pressure does not affect the distribution of the cations in the crystal structures of Er:KYbF(4) and KYF(4) up to the phase transitions at about 4 GPa.
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| http://dx.doi.org/10.1039/c2dt31483e | DOI Listing |
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