We demonstrated here novel multistimuli responsive organosilica hybrid nanopaticles (SiO1 5 gPEA NPs) based on graft poly(ether amine)s (gPEAs) Poly(ether amine)s comprised of trimethoxysilyl moieties (TMS-gPEAs) were synthesized via nucleophilic substitution/ring-opening reaction of commercial poly(propylene glycol) diglycidyl ether, Jeffamine L100 and 2-aminoethanolthiol, followed by introducing trimethoxysilyl moieties (TMS) into side-chain via "thiol-ene' reaction The obtained TMS-gPEAs could be dispersed directly in water to form the core-cross-linked hybrid nanoparticles (SiO1 5 gPEA NPs) with diameter of about 20 nm which was revealed by TEM and DLS These obtained SiO1 5-gPEA NPs in aqueous solution were responsive to temperature, pH and ionic strength with tunable cloud point (CP) Simultaneously, SiO1 5 gPEA NPs could encapsulate hydrophobic guest molecule Nile Red in water It is interesting that SiO1 5-gPEA NPs can sequester the hydrophilic dyes selectively SiO1 5 gPEA11 NPs could transfer only Rose Bengal (RB) reversibly from the aqueous mixture of RB and Rhodamine 6G (R6G) to toluene, which was controlled by temperature These characteristics will give SiO1 5-gPEAs potential in smart separation

• 出版日期2010-12-28
• 单位上海交通大学