Synthesis and inkjet printing of aqueous ZnS:Mn nanoparticles

Abstract

Nanoparticles of ZnS doped with Mn, a common photo- and electro-luminescent species, were synthesized in water using a competitive precipitation method. Particle size was controlled by selection of an appropriate stabilizer added during synthesis, 3-mercaptopropionic acid, which also rendered the particles water-dispersible after synthesis and isolation. Primary particle size was ∼3nm, with small agglomerates of 10–20nm in size. The particles were stably dispersed into water at a loading of 2.5w/w%. This dispersion formed the basis for an aqueous inkjet ink, containing 1w/w% ZnS:Mn. The small particle size allowed the nanoparticles to be successfully delivered to several substrates without loss during filtration or jetting. Bright photoluminescence was observed in the printed patterns on some substrates (glass, photo-paper, foil, etc.) but was quenched on other substrates where the ink penetrated into the surface (uncoated paper). The small drop volume (10pL) allowed for reasonably high-resolution printed patterns to be deposited, albeit with significant surface roughness due to the “coffee-ring” effect.