Rapid Microfluidic Mixing Method Based on Droplet Rotation Due to PDMS Deformation

• Main Authors: Chunyang Wei, Chengzhuang Yu, Shanshan Li, Feng Pan, Tiejun Li, Zichao Wang, Junwei Li
• Format: Article
• Language: English
• Published: MDPI AG 2021-07-01
• Series: Micromachines
• Subjects: microfluidics; mixing; droplet rotation; PDMS deformation
• Online Access: https://www.mdpi.com/2072-666X/12/8/901

Droplet-based micromixers have shown great prospects in chemical synthesis, pharmacology, biologics, and diagnostics. When compared with the active method, passive micromixer is widely used because it relies on the droplet movement in the microchannel without extra energy, which is more concise and easier to operate. Here we present a droplet rotation-based microfluidic mixer that allows rapid mixing within individual droplets efficiently. PDMS deformation is used to construct subsidence on the roof of the microchannel, which can deviate the trajectory of droplets. Thus, the droplet shows a rotation behavior due to the non-uniform distribution of the flow field, which can introduce turbulence and induce cross-flow enhancing 3D mixing inside the droplet, achieving rapid and homogenous fluid mixing. In order to evaluate the performance of the droplet rotation-based microfluidic mixer, droplets with highly viscous fluid (60% <i>w</i>/<i>w</i> PEGDA solution) were generated, half of which was seeded with fluorescent dye for imaging. Mixing efficiency was quantified using the mixing index (MI), which shows as high as 92% mixing index was achieved within 12 mm traveling. Here in this work, it has been demonstrated that the microfluidic mixing method based on the droplet rotation has shown the advantages of low-cost, easy to operate, and high mixing efficiency. It is expected to find wide applications in the field of pharmaceutics, chemical synthesis, and biologics.