Structure, morphology and optical properties of undoped and MN-doped ZnO sub((1-x))S sub(x) nano-powders prepared by precipitation method

The undoped and Mn-doped ZnO sub((1-x))S super(x) nano-powders were successfully synthesized by precipitation method without using any capping agent Its structure, morphology, elemental analysis, optical and luminescence properties were determined by scanning electron microscopy (SEM), energy-dispersive X-ray spectroscopy (EDS), UV-vis spectroscopy (UV) and photoluminescence spectroscopy (PL). A typical SEM image of the un-doped ZnO sub((1-x))S sub(x) nanoparticles exhibit flake like structures that changes to nearly spherical particles with Mn-doping. The XRD of undoped and Mn doped ZnO sub((1-x))S sub(x) pattern reveals the formation of a product indexed to the hexagonal wurtzite phase of ZnS. The nanopowders have crystallite sizes estimated from XRD measurements were in the range of 10-20 nm. All the samples showed absorption maximum of ZnO sub((1-x))S sub(x) at 271 nm and high transmittance in UV and visible region, respectively. The undoped ZnO(1-x)S sub(x) nanoparticles show strong room-temperature photoluminescence with four emission bands centering at 338 nm, 384 nm, 448 nm and 705 nm that may originate to the impurity of ZnO sub((1-x))S sub(x), existence of oxide related defects. The calculated bandgap of the nanocrystalline ZnO sub((1-x))S sub(x) showed a blue-shift with respect to the Mn-doping. The PL spectra of the Mn-doped samples exhibit a strong orange emission at around 594 nm attributed to the super(4)T sub(1) - super(6)A sub(1) transition of the Mn super(2+) ions.