Abstract:
The main aim of this work is to synthesize non-toxic, biocompatible inorganic luminescent
nanoparticles (NPs) of zinc sulphide (ZnS) doped with Ag+ ions using chemical precipitation method. This
communication reports synthesis of silver doped ZnS encapsulated by sodium carboxy methyl cellulose
(NaCMC) and its characterization. The effect of efficient heating by microwaves were utilized to achieve
faster reaction rates. The effect of dopant (silver) concentration on the photoluminescence behavior of the
composite as a new approach for the preparation method was studied. Synthesis involves chemical coprecipitation
method using zinc acetate and thioacetamide as ZnS precursors, silver nitrate as dopant salt,
carboxy methyl cellulose as capping agent and water as solvent. The synthesized samples were
characterized for their structural and optical properties. Substitutional doping of silver in to the ZnS lattice
was indicated by the XRD studies. The nanocrystallite size increased with Ag concentration. The presence
of silver dopants was indicated by EDS analysis. The band gap energies obtained from UV – Vis spectroscopy
for all samples were higher than that of bulk value (3.68 eV) indicating quantum confinement effect.
Photoluminescence measurements indicated maximum intensity at certain optimum concentration of
added silver dopant. The difficulty in substitutional doping of Ag in to ZnS faced in earlier works has been
overcome in our work due to microwave heating and this also influences the growth mechanism. As Ag is
known for its antimicrobial properties, the Ag doped NaCMC capped ZnS samples are suitable for possible
application as nanoscale fluorescent probes for potential biological and medical applications
