Liquid phase epitaxy and characterization of rare-earth-ion (Yb, Er) doped InP

Compounds of the series Ln 6 ReO 12 , Ln‫؍‬Ho, Er, Tm, Yb, and Lu, have been prepared by subsolidus reaction and are isotypic with Ln 6 MoO 12 , Ln 6 WO 12 , and Ln 6 UO 12 , crystallizing in space group R3 with Z‫3؍‬ for the R-centered setting. The magnetic moment per rhenium ion in Lu 6 ReO 12 is

## Abstract A systematic study has been made on the influence of doped rare‐earth metal ions (Er^3+^ and Nd^3+^) on the molecular interaction present in thin films fabricated from chitosan‐acetic acid solutions (chitosan/HAc). FT‐IR spectroscopy (including NIR, MIR and FIR) coupled with X‐ray photo

Anatase TiO 2 nanobelts doped with rare earth (RE) ions Yb 3 + , Er 3 + or Yb 3 + /Er 3 + have been prepared using layered titanate nanobelts (LTO NBs) with RE ions as the precursor obtained by ion-exchange between LTO NBs and RE ions under hydrothermal process. Various measurement results demonstra

Erbium (Er 3+ ) doped LiNbO 3 single crystal thin films have been grown LiNbO 3 (001) substrate by the liquid phase epitaxy method. The crystallinity was determined by high-resolution X-ray diffraction. The lattice mismatch between Er 3+ doped LiNbO 3 films and LiNbO 3 (001) substrate was investigat