Surface-induced droplet fusion in microfluidic devices
"Surface-induced droplet fusion in microfluidic devices"
Luis M. Fidalgo, Chris Abell, and Wilheml T.S. Huck
Lab Chip, 2007, 7, 984-986
Soft Matter Keywords
Microfluidics, droplet, surface tension, PDMS
Refer to paper
Soft Matter Examples
Droplets in microfluidic devices have shown to be important for carrying out on-chip reactions. So far, the coalescence of two drops in a microfluidic channel have been done by either applying electric fields to polarize the interfaces of teh droplets, or by forcing physical contact of the two droplets using precise geometries. The authors here demonstrate a method of combining two droplets by altering surface energy in the microfluidic channels.
The authors grafteed poly(acrylic acid) (PAA) using UV photopolymerization on benzophenone-containing PDMS surfaces. Figure 1(b) shows a picture of a part of a PDMS channel that contained a patterened poly(acrylic acid) part. When water droplets (in a continuous phase of oil) flow past the patterned surface, they are trapped. When the next drop arrives, the two drops combine and mix (Fig. 2). Because the process produces no loss of material, the coalesced droplets are also monodispersed.
In order for a droplet to be trapped on the surface, the droplet has to have sufficient time on the surface. The authors show that if the droplet moves too fast, it will escape the trap (Fig. 3). The droplet's detachment is governed by viscous drag (<math> w \eta v </math>) and interfacial force (<math> w \gamma </math>), where w is the widtho f the pattern.