Abstract
The processes of wetting and solvent evaporation in the drying sessile conductive ink droplets formed by inkjet printing are clarified for characterization to be referenced for diverse applications. The electric resistance of the PEDOT:PSS ink line patterns on the nanopaper, the film material of cellulose nanofibers, is affected by the shape and structure of the wire, which are dominated by the elementary process of the droplet drying dynamics. The evaporation flow rate of the ink droplets on the nanopapers decreases at the later stage of the drying process. This is dominated by the decrease in the air–liquid interfacial surface area, while the evaporation flux is roughly constant. The wetting of droplets formed by the inkjet printer is different from the quasi-static droplet placement. The contact angles of sufficiently smaller droplets are smaller, indicating higher apparent wettability because of the momentum effect. This is distinguished from the gravity effect. The conductive particles in the ink help the droplet pinning on the substrate. The nanopapers also tend to pin the droplet peripheries compared to the slide glass. Nevertheless, the radii of both water and the conductive ink droplets on the nanopapers first increase and then decrease later. The initial slow increase in the radius is distinguished from the spreading by the inkjet momentum and is likely to be caused by the capillary effect of the fine texture of the nanopapers. This trend is significant for larger droplets, but the colored dry spots of the ink were smaller than the maximum droplet radii during drying.
Highlights
Inkjet drawing of conductive inks on a substrate in the field of printed electronics1–5 calls for different requirements compared to the conventional usage for pictures and characters on documents and posters
The electric resistance of the PEDOT:PSS ink line patterns on the nanopaper, the film material of cellulose nanofibers, is affected by the shape and structure of the wire, which are dominated by the elementary process of the droplet drying dynamics
This Ldp-dependence of the basic macroscopic morphology is observed in the existing report of PEDOT:PSS ink droplets drawn on poly(4-vinylphenol) dielectric (PVP) coated on a slide glass
Summary
Inkjet drawing of conductive inks on a substrate in the field of printed electronics calls for different requirements compared to the conventional usage for pictures and characters on documents and posters. To link the existing knowledge on the simplest kinds of systems and the context of the printed electronics, comparison is made for the characteristics between different combinations of the liquids and the substrates, while avoiding too much complexity and keeping the simplicity; namely, we focus on the comparison between water and a PEDOT:PSS ink as the droplet liquids, and a slide glass and a nanopaper as the substrates. We discuss the non-stationary dynamics of droplet deformation during the drying process, where the nanopaper exhibits a marked difference from the slide glass. This is more clearly manifested in combination with the PEDOT:PSS ink
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