Nanoindentation and ellipsometry of Lisb 2ZnTisb 3Osb 8 & Znsb 2TiOsb 4 single crystals

Spinel-type Lisb 2ZnTisb 3Osb 8 and Znsb 2TiOsb 4 are useful for various industrial applications due to their interesting chemical and physical properties, for example, as promising anode materials in Li-ion batteries or as components in dielectric devices [1]. Since Lisb 2ZnTisb 3Osb 8 and Znsb 2TiOsb 4 are expected to have high refractive indices (n calc. = 2,33 and 2,26) we tried to characterize these materials in more detail including single-crystal X-ray diffraction, nanoindentation, spectroscopic ellipsometry and electron microprobe analysis. Single crystals of Lisb 2ZnTisb 3Osb 8 and Znsb 2TiOsb 4 were grown directly from melt at 1723 K and 1873 K, respectively. Fragments of sintered polycrystalline Lisb 2ZnTisb 3Osb 8 and Znsb 2TiOsb 4 precursors were placed on an iridium sheet and fired in a muffle furnace from 1273 to 1723/1873 K with a heating ramp of 15 K/min. After a dwell time of 3 min the melt was cooled down to 1473 K with a ramp of 10 K/min and subsequently quenched in water. Structural investigations of the Lisb 2ZnTisb 3Osb 8 and Znsb 2TiOsb 4 single crystals resulted in the following basic crystallographic data: cubic, P4sb 332, a = 8.3697(2) Å, V = 586.31(3) Åsp 3, Z = 4 and Fd-3m, a = 8.46230(17) Å, V = 605.99(2) Åsp 3, Z = 8, respectively. Nanoindentation experiments were performed with a Berkovich diamond indenter tip to determine the hardness and elastic modulus of Znsb 2TiOsb 4 and Lisb 2ZnTisb 3Osb 8. For sample preparation the single crystals were embedded in resin and polished to a mirror-like surface finish. More than 150 indents with a distance of 10 μm were made with a maximum load of 20 mN. Analysis of the load-displacement curves for Znsb 2TiOsb 4 revealed a hardness of 10.51 sp 1 0.39 GPa and a reduced elastic modulus of 180.90 sp 1 3.92 GPa. Atomic force micrographs displayed indents with a max. depth of 288 sp 1 5 nm. Lisb 2ZnTisb 3Osb 8 exhibited a hardness of 6.86 sp 1 0.45 GPa and a reduced elastic modulus of 148.88 sp 1 6 GPa. Znsb 2TiOsb 4 showed a dispersion of 0.09 due to the variation of the refractive index from 2.24 (430,8 nm, Fraunhofer G line) and 2.15 (686,7 nm, B line).