TY - JOUR
T1 - Aggregation behavior of thermo-responsive poly(2-oxazoline)s at the cloud point investigated by FCS and SANS
AU - Salzinger, Stephan
AU - Huber, Stephan
AU - Jaksch, Sebastian
AU - Busch, Peter
AU - Jordan, Rainer
AU - Papadakis, Christine M.
N1 - Funding Information:
We thank E. T. Hoppe for assistance with FCS and fruitful discussions. We gratefully acknowledge financial support by the DFG (Pa771/6-2, Jo287/4-3).
PY - 2012/3
Y1 - 2012/3
N2 - We have studied different thermo-responsive poly (2-oxazoline)s with iso-propyl (iPrOx) and n-propyl (nPrOx) pendant groups in aqueous solutions,where they exhibit lower critical solution temperature behavior. This paper focuses on the effect of the degree of polymerization, n, the concentration, c, in the dilute regime, and the presence of hydrophobic moieties. The cloud points were investigated as a function of the degree of polymerization, n, and of the polymer concentration, c. The aggregation behavior near the cloud point was studied by temperature-resolved small-angle neutron scattering and fluorescence correlation spectroscopy, i.e., a combination of ensemble and single molecule methods. We found that at the cloud points, large aggregates are formed and that the cloud points depend strongly on both, n and c. Diblock copolymers from iPrOx and nPrOx form large aggregates already at the cloud point of PnPrOx, and, unexpectedly, no micelles are observed between the cloud points of the two blocks. Gradient copolymers from iPrOx and n-nonyl-2-oxazoline (NOx) display a complex aggregation behavior resulting from the interplay between intra- and intermolecular association mediated by the hydrophobic NOx blocks. Above the cloud point, an intermediate temperature regime with a width of a few Kelvin was found with small but stable polymer aggregates. Only at higher temperatures, larger aggregates are found in significant number.
AB - We have studied different thermo-responsive poly (2-oxazoline)s with iso-propyl (iPrOx) and n-propyl (nPrOx) pendant groups in aqueous solutions,where they exhibit lower critical solution temperature behavior. This paper focuses on the effect of the degree of polymerization, n, the concentration, c, in the dilute regime, and the presence of hydrophobic moieties. The cloud points were investigated as a function of the degree of polymerization, n, and of the polymer concentration, c. The aggregation behavior near the cloud point was studied by temperature-resolved small-angle neutron scattering and fluorescence correlation spectroscopy, i.e., a combination of ensemble and single molecule methods. We found that at the cloud points, large aggregates are formed and that the cloud points depend strongly on both, n and c. Diblock copolymers from iPrOx and nPrOx form large aggregates already at the cloud point of PnPrOx, and, unexpectedly, no micelles are observed between the cloud points of the two blocks. Gradient copolymers from iPrOx and n-nonyl-2-oxazoline (NOx) display a complex aggregation behavior resulting from the interplay between intra- and intermolecular association mediated by the hydrophobic NOx blocks. Above the cloud point, an intermediate temperature regime with a width of a few Kelvin was found with small but stable polymer aggregates. Only at higher temperatures, larger aggregates are found in significant number.
KW - Cloud point
KW - Fluorescence correlation spectroscopy
KW - Polyoxazoline
KW - Small-angle neutron scattering
KW - Thermoresponsive polymers
UR - http://www.scopus.com/inward/record.url?scp=84860729544&partnerID=8YFLogxK
U2 - 10.1007/s00396-011-2564-z
DO - 10.1007/s00396-011-2564-z
M3 - Article
AN - SCOPUS:84860729544
SN - 0303-402X
VL - 290
SP - 385
EP - 400
JO - Colloid and Polymer Science
JF - Colloid and Polymer Science
IS - 5
ER -