Current Journal of Applied Science and Technology

The effect of sodium carboxymethyl cellulose (CMC) as capping agent on the optical (photo) and structural (physical) properties of zinc sulfide (ZnS) nanoparticles was studied. The capped nanoparticles were grown by the precipitation technique. The capping ratio of precursor (ZnS) to surfactant (CMC) (vol/vol) considered were 1:1 (sample S₁₎, 1:2 (S₂ sample) and 1:3 (sample S₃ sample). Analyses carried out include; X-ray diffraction (XRD), scanning electron microscopy (SEM), fourier transform infrared spectroscopy (FTIR), UV-Vis spectroscopy and photoluminescence studies. SEM analysis revealed particles as agglomerates. The obtained band gap energies of 4.13, 4.20 and 4.27 eV for samples S₁, S₃ and S₂, respectively are blue shifted when compared to the band gap energy of bulk ZnS semiconductor indicating quantum effect. The calculated particle sizes from XRD ( 3.14, 3.73 and 15.7 nm for samples S₃, S₂ and S₁, respectively) and effective mass approximation (3.59, 3.77 and 3.98 nm for samples S₂, S₃ and S₁, respectively) were found to vary with the capping amount, though not monotonically. Capping ZnS with higher amount of CMC provided more stable nanoparticles, although with lower luminescence. The emission peaks of samples S₃and S₂ were red-shifted when compared to that of sample S₁. At low CMC capping amount, the luminescence was found to be very high and blue shifted due to a greater participation of surface trap states.