Two polyethylene glycols (PEG, M = 35 000)
end-capped with short fluorocarbon tails were synthesized
and characterized. In aqueous solution, the fluorocarbon portions
associate strongly to form micelle-like
structures which are bridged by PEG chains to form a three-dimensional
network. As a result, these
polymers in solution exhibit unusual rheological properties as a
function of fluorocarbon length, polymer
concentration, and shear rate (frequency). Their zero-shear
viscosity increases with concentration, a
common behavior of associating polymers. The viscosity is
dramatically enhanced by replacing the end
hydrophobe C6F13 with
C8F17, a consequence of the stronger
association interaction of C8F17 in
aqueous
solution. The polymer with the longer end group exhibits strong
shear thinning once a critical shear rate
is reached, whereas for the C6F13 end-capped
polymer, we cannot with our equipment reach the shear-thinning regime. Our data indicate that between 2 and 6 wt %, and
perhaps over a wider range of
concentrations, both systems can be characterized in terms of identical
values of the plateau modulus
G
N°,
implying a similar concentration of chains bridging micelles in each
system. The G
N° values
increase
strongly with polymer concentration, consistent with a larger fraction
of bridging chains and a smaller
fraction of looping chains at elevated concentration. The
viscosity difference between the two polymers
can be explained in terms of a slower exit rate of the longer
fluorocarbon from its micelle.
The syntheses of three novel functionalized tricarbocyanine dyes are described. These dyes containing isothiocyanate and succinimidyl ester functional groups are reactive toward primary amines and can be used as fluorescent probes for biologically pertinent compounds such as amino acids and functionalized dideoxynucleotides. The absorption and fluorescence maxima occur in the near-IR region of the spectrum (770-810 nm). The succinimidyl ester proved to be very sensitive to hydrolysis and was generated in situ to label amino acids. The isothiocyanates were less susceptible to hydrolysis and were conjugated using organic modified [40% (v/v) acetonitrile] buffers to amino acids. A dye with an alkyl isothiocyanate moiety showed conjugation to amino-functionalized dideoxynucleotide triphosphates.
19F NMR experiments are used to study the aggregation behavior of two telechelic polymer
systems. These polymer systems consist of a water−soluble chain, here poly(ethylene glycol), with two
hydrophobic endgroups. Because of the hydrophobic interaction of the fluorocarbon endgroups, these
polymer chains associate in water to form aggregates at low concentrations. The aggregate comprises a
core formed from the insoluble hydrophobic endgroups that are surrounded by a corona of long water-soluble polymer chains. With increasing polymer concentration, the polymer chains start bridging so
that a three-dimensional, physical network with fluorinated aggregate cores as cross-link points is formed.
This effect can be substantially enhanced by replacing the hydrophobic endgroup C6F13 with C8F17, a
consequence of the stronger association of C8F17 in aqueous solution. By different 19F NMR parameters,
i.e., 19F transverse relaxation and 19F chemical shift, we can distinguish aggregated and nonaggregated
chain ends. This enables us to follow the formation of an infinite network.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.