Thermoresponsive Gold Nanoparticles with Positive UCST-Type Thermoresponsivity

Trithiocarbonate end‐functionalized poly(N‐acryloylglycinamide) (PNAGA), synthesized via reversible addition–fragmentation transfer (RAFT) polymerization of different molecular weights, is grafted onto gold nanoparticles (AuNPs) by ligand exchange in phosphate‐buffered saline. The PNAGA‐grafted AuNP...

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Bibliographic Details
Published in:Macromolecular chemistry and physics 2015-02, Vol.216 (4), p.460-465
Main Authors: Liu, Fangyao, Agarwal, Seema
Format: Article
Language:English
Subjects:
Addition polymerization
Electron microscopy
Gold
gold nanoparticles
Grafting
ligand exchange
Nanoparticles
Phase transformations
reversible addition-fragmentation transfer polymerization
Saline
Spectroscopy
Turbidity
upper critical solution temperature
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Summary:Trithiocarbonate end‐functionalized poly(N‐acryloylglycinamide) (PNAGA), synthesized via reversible addition–fragmentation transfer (RAFT) polymerization of different molecular weights, is grafted onto gold nanoparticles (AuNPs) by ligand exchange in phosphate‐buffered saline. The PNAGA‐grafted AuNPs display upper critical solution temperature (UCST)‐type transitions: stable colloidal distribution and aggregation above and below the cloud points, respectively. Cloud points of PNAGA are not affected by the grafting procedure, and PNAGA@AuNPs show similar cloud points as that of the trithiocarbonate end‐functionalized free‐PNAGAs used for grafting. The UCST‐type phase transition is reversible for many cycles. The reversible control of the phase transition is proved by turbidity measurements and UV–vis spectroscopy, as well as by transmission electron microscopy (TEM). A simple strategy for preparing thermo­responsive gold nanoparticles (AuNPs) is presented, showing positive UCST‐type thermo­responsivity by grafting trithiocarbonate chain‐end‐functionalized poly(N‐acryloylglycinamide) onto the AuNP surface in phosphate buffered saline. The UCST‐type phase transition is reversible for many cycles. Reversible control of the phase transition is proved by turbidity measurements and UV–vis spectroscopy, as well as by transmission electron microscopy.
ISSN:1022-1352
1521-3935
DOI:10.1002/macp.201400497