Functionalization-induced
phase transitions in polymer systems
in which a postpolymerization reaction drives polymers to organize
into colloidal aggregates are a versatile method to create nanoscale
structures with applications related to biomedicine and nanoreactors.
Current functionalization methods to stimulate polymer self-assembly
are based on covalent bond formation. Therefore, there is a need to
explore alternative reactions that result in noncovalent bond formation.
Here, we demonstrate that when the Lewis acid, tris(pentafluorophenyl)
borane (BCF), is added to a solution containing poly(4-diphenylphosphino
styrene) (PDPPS), the system will either macrophase-separate or form
micelles if PDPPS is a homopolymer or a block in a copolymer, respectively.
The Lewis adduct-induced phase transition is hypothesized to result
from the favorable interaction between the PDPPS and BCF, which results
in a negative interaction parameter (χ). A modified Flory–Huggins
model was used to determine the predicted phase behavior for a ternary
system composed of a polymer, a solvent, and a small molecule. The
model indicates that there is a demixing region (i.e., macrophase
separation) when the polymer and small molecule have favorable interactions
(e.g., χ < 0) and that the phase separation region coincides
well with the experimentally determined two-phase region for mixtures
containing PDPPS, BCF, and toluene. The work presented here highlights
that Lewis adduct-induced phase separation is a new approach to functionalization-induced
self-assembly (FISA) and that ternary mixtures will undergo phase
separation if two of the components exhibit a sufficiently negative
χ.
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