Investigation of the lcst-thermoresponsive behavior of novel oligo(Ethylene glycol)-modified pentafluorostyrene homopolymers

Abstract

Amphiphilic tetrafluorostyrene monomers (EFS8) carrying in the para position an oli-goethylene glycol chain containing 8 oxyethylenic units on average were synthesized and used for preparation via activator regenerated by electron transfer atom transfer radical polymerization (ARGET-ATRP) of the corresponding amphiphilic homopolymers (pEFS8-x) with different degrees of polymerization (x = 26 and 46). Combining light transmittance and nano-differential scanning calorimetry (n-DSC) measurements revealed that pEFS8-x homopolymers displayed a lower critical solution temperature (LCST) thermoresponsive behavior in water solutions. Moreover, n-DSC measurements revealed the presence in heating scans of a broad endothermic peak ascribable to the dehydration process of the polymer single chains (unimers) and their collapse into aggregates. Consistently, dynamic light scattering (DLS) measurements showed below the LCST the presence of small nanostructures with a hydrodynamic diameter size Dh of 6–7 nm, which collapsed into concentration-dependent larger multichain aggregates (Dh = 300–3000 nm) above LCST. Interestingly, n-DSC data showed that the unimer-aggregate transition was reversible up to a specific temperature (Trev ) of each homopolymer, which in any case was higher than Tmax . When heating above Trev the transition was no longer reversible, causing the shift of Tonset and Tmax at lower values, thus suggest-ing an increase in hydrophobicity of the polymer systems associated with a temperature-dependent dehydration process.