Plasmon coupling in nanoparticle-microgel hybrids exhibits re-entrant behavior with NP loading, driven by colloidal stability and interparticle distance, yielding two distinct coupling regimes.
New “smart” poly(NIPAM) microgels and nanoparticle microgel hybrids: Properties and advances in characterisation
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Copolymerization of PNIPAM-like monomers with hydrophobic or ionizable comonomers enables control of microgel volume phase transition temperature and internal morphology, with external stimuli providing additional switching.
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Phase behavior of thermoresponsive colloids drives re-entrant plasmon coupling
Plasmon coupling in nanoparticle-microgel hybrids exhibits re-entrant behavior with NP loading, driven by colloidal stability and interparticle distance, yielding two distinct coupling regimes.
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Controlling microgel morphology and swelling behavior by copolymerization
Copolymerization of PNIPAM-like monomers with hydrophobic or ionizable comonomers enables control of microgel volume phase transition temperature and internal morphology, with external stimuli providing additional switching.