Microcapsules with regular pore size can provide size-selective permeation, which is promising for immunoisolation of cells, protection of enzymes or catalysts, and development of capsule-type sensors. However, conventional approaches have… Click to show full abstract
Microcapsules with regular pore size can provide size-selective permeation, which is promising for immunoisolation of cells, protection of enzymes or catalysts, and development of capsule-type sensors. However, conventional approaches have limited biocompatibility or poor dispersion stability of encapsulants. Here, we suggest a simple yet pragmatic method to produce semipermeable microcapsules using osmotic stress. With a capillary microfluidic device, monodisperse microcapsules with ultrathin polymer membranes are prepared by double-emulsion templating. The microcapsules are subjected to a hypotonic condition, by which water is pumped in imposing a tensile stress on the membrane. The osmotic stress initiates cracks at weak spots. As cracks propagate, the pressure gradually reduces as ions diffuse through them, finally resulting in a finite width of cracks. The final width can be controlled from 5 to 10 nm using an initial osmotic pressure of 230 to 690 kPa, enabling fine adjustment of the cutoff threshol...
               
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