Plug-and-play microfluidic production of monodisperse giant unilamellar vesicles using droplet transfer across Water–Oil interface

Giant unilamellar vesicles (GUVs) are cell-sized compartments widely used in biological and chemical applications. The monodispersity of GUVs is essential for quantitative analysis and experimental reproducibility in biomimetic microreactor studies. In this study, we established a highly reproducible plug-and-play microfluidics-based method to generate monodisperse GUVs without surface treatment of the channel or precise flow-rate adjustment. In the microfluidic channel, we generated water-in-oil (W/O) droplets through hydrodynamic flow focusing and transferred across the W–O interface to form thin-shelled water-in-oil-in-water (W/O/W) droplets as precursors to GUVs. The success rate of the W/O droplet transfer reached nearly 100% by stabilizing the co-flow of oil and water and adjusting the curvature of the W–O interface. Owing to interfacial energy minimization, the thin oil layer of the W/O/W droplets dewetted and detached to form GUVs. We performed a membrane-protein insertion assay to confirm the unilamellarity of the GUVs and their shrinkage caused by osmotic action. •Giant unilamellar vesicles were formed without surface treatment of microfluidics.•Droplet transfer efficiency in the microfluidics reached 100%.•Membrane-protein insertion assay proved the unilamellarity of the GUVs.•Shrinkage of the GUVs could be performed by osmotic pressure.