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Thermal annealing and UV irradiation effects on structure, morphology, photoluminescence and optical absorption spectra of EDTA-capped ZnS nanoparticles

Research Authors
M A Osman
A A Othman
Waleed A. El-Said
A G Abd-Elrahim
A A Abu-sehly
Research Abstract

Monodispersed ZnS nanoparticles (NPs) were prepared by the chemical precipitation method. Thermally induced structural, morphological and optical changes have been investigated using x-ray diffraction, high-resolution transmission electron microscopy, optical absorption, photoluminescence (PL), and Fourier transform infrared and Raman spectroscopy. It was found that D increases with increasing annealing temperature (T a). The onset of the ZnS phase transition from cubic to hexagonal structure takes place at 400 °C, while cubic ZnS transforms into hexagonal ZnO via thermal oxidation in air at 600 °C. It is also noted that increasing T a results in the red shift of the optical band gap (Eg ) and the thermal bleaching of exciton absorption. The PL spectrum of as-prepared ZnS nanopowder shows UV emission bands at 363 and 395 nm and blue and green emission at 438 and 515 nm, respectively. With increasing T a up to 500 °C, these bands were quenched and red-shifted. In addition, the UV irradiation effects on colloidal ZnS NPs were investigated. UV irradiation at a dose  <13 J cm−2 leads to a decrease in D, the blue shift of Eg and the enhancement of PL intensity. This behavior was explained in terms of surface modification by photopolymerization, the formation of a ZnSO4 passivation laye, as well as the reduction of D by photo-corrosion. At a UV irradiation dose  <13 J cm−2 both Eg and D did not change and PL intensity was quenched, which were caused by the creation of nonradiative surface states by the photodegradation of the capping agent and photo passivated layer. The mechanism of the PL emission process in ZnS NPs was discussed and an energy band diagram was proposed.

Research Department
Research Journal
Journal of Physics D: Applied Physics
Research Publisher
IOP
Research Rank
1
Research Vol
49
Research Website
https://doi.org/10.1088/0022-3727/49/5/055304
Research Year
2015
Research Pages
055304