Microfluidics as A Tool to Understand the Build‐Up Mechanism of Exponential‐Like Growing Films

Abstract

Microfluidics is used here for the first time to efficiently tune the growth conditions for understanding the build-up mechanism of exponentially growing polyelectrolyte (PE) films. The velocity of PE supply and time of interaction can be successfully altered during the layer-by-layer assembly. Another advantage of this method is that the deposition of poly-L-lysine/hyaluronic acid (PLL/HA) films in microchannels can be monitored online by fluorescence microscopy. The study demonstrates that PE mass transport to the film surface and diffusion in the film are key parameters affecting PLL/HA film build-up. Increase of PE supply rate results in a change in the "transition" (exponential-to-linear growth) towards higher number of deposition steps, thus indicating a mass transport-mediated growth mechanism.