New Multichannel Frontal Polymerization Strategy for
Scaled-up Production of Robust Hydrogels
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Abstract
Herein,
we report a new facile and safe pathway for the scaled-up
production of mechanically strong and multiresponsive interpenetrating
polymer network (IPN) hydrogels via multichannel frontal polymerization
(multichannel FP). We designed a two-part system, of which part-1
contained high reactive monomer and could polymerize spontaneously.
The polymerization of part-1 released tremendous amount of heat, subsequently
initiating FP of part-2 to convert monomers to polymers without any
external energy, which is flexible, cost-effective, and environmental.
Multichannel FP not only allowed realization of parallel polymerization
to obtain a number of hydrogels but also solved center overheating
and explosion problem stemmed from a large reaction vessel. Compared
with the sample prepared in bigger tubular reactor, product synthesized
via multichannel FP showed more excellent thermal stability, morphology
and mechanical properties. Moreover, the as-prepared IPN hydrogels
exhibited chemical-, pH-, and thermal-sensitivity toward various external
changes, which might broaden the applications of hydrogels in sensors