Thermo-responsive fluorinated surfactant for on-demand demulsification of microfluidic droplets
Chuanfeng An, Yujie Zhang, Hanting Li, Haoyue Zhang, Yonghao Zhang, Jiamian Wang, Yang Zhang, Fang Cheng, Kai Sun, Huanan Wang
Journal:LAB ON A CHIP
IF:6.8
DOI:10.1039/D1LC00450F
PMID:34472548
Published:2021-08-25
research field:分子生物学生物信息学心脏病学生物标志物呼吸医学无创诊断
Abstract
Droplet microfluidics has recently emerged as a powerful platform for a variety of biomedical applications including microreactors, bioactive compound encapsulation, and single cell culture and analysis; all these applications require long-term droplet stability, which, however, makes breaking the emulsion and retrieving the loaded samples difficult. Herein, we developed a novel class of thermo-responsive fluorosurfactants to control the droplet status simply by temperature. The surfactants were synthesized by coupling perfluorinated polyethers (PFPEs) with a thermo-responsive block of poly(N-isopropylacrylamide) (pNIPAM) or poly(2-ethyl-2-oxazoline) (pEtOx) with lower critical solution temperature (LCST). These diblock surfactants can stabilize the emulsion at temperatures below LCST due to the hydrophilic head, which became hydrophobic upon increasing the ambient temperature above LCST, thereby destabilizing the droplets and realizing demulsification simply via temperature control. The diblock surfactant can be applied for templating cell encapsulation using alginate microgels, which allowed one-step and high-throughput microfluidic generation of cell-laden microgels without compromising cell viability. This non-invasive, on-demand demulsification strategy provides a high degree of freedom for microencapsulation and on-demand recovery of the samples or reaction products within the droplets, which opens a new avenue for a wide range of applications of droplet-templating microfluidics.
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