Synthesis, characterization, and single-crystal growth of a high-entropy rare-earth pyrochlore oxide...

The synthesis and single-crystal growth of a rare-earth high-entropy oxide (Yb0.2Tb0.2Gd0.2Dy0.2Er0.2)2Ti2O7 in the cubic pyrochlore phase Fd¯3m are achieved by solid-state reaction and optical floating-zone growth techniques. X-ray diffraction and a structure refinement analysis confirm a single-phase pyrochlore structure and lattice parameter of a=10.1152(3)Å. Additional characterization techniques, including scanning transmission electron microscopy and nanoscale electron-energy loss spectroscopy mapping, support a single-phase pyrochlore structure with a homogeneous mixture down to ∼2.3 nm. Magnetization measurements on a single crystal reveal antiferromagnetic correlations with a spin-glass ground state. These results show that it is possible to grow large single crystals of a high entropy pyrochlore oxide, expanding the avenues for future high-entropy oxide research.