Unexpected Temperature Behavior of Polyethylene Glycol Spacers in Copolymer Dendrimers in Chloroform
Petri Ingman; Anastasia V. Penkova; Natalia I. Boiko; Marianna N. Nikolaeva; Vladimir I. Chizhik; Erkki Lahderanta; Vladimir V. Matveev; Denis A. Markelov
https://urn.fi/URN:NBN:fi-fe2021042715770
Tiivistelmä
We have studied copolymer dendrimer structure: carbosilane dendrimers with terminal phenylbenzoate
mesogenic groups attached by poly(ethylene) glycol (PEG) spacers. In this system PEG spacers are
additional tuning to usual copolymer structure: dendrimer with terminal mesogenic groups. The
dendrimer macromolecules were investigated in a dilute chloroform solution by 1H NMR methods
(spectra and relaxations). It was found that the PEG layer in G = 5 generations dendrimer is “frozen”
at high temperatures (above 260 K), but it unexpectedly becomes “unfrozen” at temperatures below
250 K (i.e., melting when cooling). The transition between these two states occurs within a small
temperature range (~10 K). Such a behavior is not observed for smaller dendrimer generations (G = 1
and 3). This effect is likely related to the low critical solution temperature (LCST) of PEG and is caused by
dendrimer conformations, in which the PEG group concentration in the layer increases with growing G.
We suppose that the unusual behavior of PEG fragments in dendrimers will be interesting for practical
applications such as nanocontainers or nanoreactors.
Kokoelmat
- Rinnakkaistallenteet [19207]