3-D microchannels promote self-assembly of ordered emulsions at low droplet concentrations

3D microchannels promote self-assembly of ordered emulsions at low droplet concentrations
One, two and three layers of self-assembled droplets in 3D microchannels. Credit: SUTD

Self-assembly is the process by which simple building blocks interact and organize themselves into ordered structures. Nature abounds with fascinating examples of self-assembled structures. Inspired by nature, researchers have long sought to exploit self-assembly as a "bottom-up" fabrication technique to engineer complex materials and devices. Currently, the self-assembly of ordered emulsions has elicited much interest for its potential application in multiple fields such as material synthesis and high throughput analysis.

Microfluidic techniques offer the ability to generate and self-assemble highly monodisperse into ordered emulsions in a single device, but self-assembly in flows typically requires high droplet density. A team of researchers led by Assistant Professor Michinao Hashimoto from the Singapore University of Technology and Design (SUTD) has discovered an elegant way to achieve self-assembly of low density droplets in microfluidic flows using three dimensional (3-D) microchannels.

In contrast to previous studies which used microchannels with no variations in height, the researchers at SUTD used a microchannel with a gradual increase in height. In such 3-D microchannels, the droplets, unconfined by the top or bottom walls and driven by a density difference with the surrounding liquid, either sink to the bottom of the microchannel or float to the top of microchannel. They then accumulate, jam and self-assemble into ordered structures. The research team demonstrated that self-assembly into 2-D lattices could be achieved when droplets occupied just 5% of the total volume of liquid injected into the microchannel; and by gradually increasing the droplet concentration beyond that, self-assembly into 3-D lattices could be achieved. To further demonstrate the potential of their discovery the researchers used self-assembled 2-D lattices of droplets as a template to fabricate millimeter wide hydrogel fibers with anisotropic pore structures.

"The simplicity and versatility of the concept—the use of 3-D microfluidics for the controlled self-assembly of droplets—should be of interest to researchers exploring the interface between microfluidics, , and " said Dr. Pravien Parthiban, a postdoctoral fellow at SUTD and the lead author involved in the work. The research finding has recently been published in Soft Matter where it has been showcased on the back cover.


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More information: Pravien Parthiban et al, Self-assembly of droplets in three-dimensional microchannels, Soft Matter (2019). DOI: 10.1039/C8SM02305K
Journal information: Soft Matter

Citation: 3-D microchannels promote self-assembly of ordered emulsions at low droplet concentrations (2019, June 6) retrieved 17 June 2019 from https://phys.org/news/2019-06-d-microchannels-self-assembly-emulsions-droplet.html
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