Effects
of subphase pH and temperature on the aggregation behavior
of a thermosensitive amphiphilic diblock copolymer poly(lauryl acrylate)-block-poly(N-isopropylacrylamide) (PLA-b-PNIPAM) at the air/water interface and the morphologies
of its Langmuir–Blodgett (LB) films were characterized with
the Langmuir film balance technique and atomic force microscopy, respectively.
The surface pressure–molecular area isotherms shift positively
with the increase of subphase pH, and there exist two quasi-plateaus
under acidic condition but only one under neutral or alkaline conditions.
The lower and upper plateaus under acidic condition are attributed
to immersion into water for the protonated amide groups and the rest
of PNIPAM blocks, respectively. The plateau pressures gradually decrease
with the elevation of temperature due to promotion of protonation
and solubility of PNIPAM blocks. On the contrary, those under neutral
and alkaline conditions gradually increase but exhibit a lower critical
solution temperature behavior which is consistent with that of PNIPAM-containing
polymers in aqueous solutions. The initial LB films of PLA-b-PNIPAM transferred from different subphases exhibit tiny
isolated circular micelles which coalesce and transform into large
dense ones upon compression. Furthermore, PLA cores usually coalesce
with the elevation of temperature due to the increased molecular thermal
mobility as a result of their low glass transition temperature.
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