Synthesis of amphiphilic fluorescent copolymers with smart pH sensitivity via RAFT polymerization and their application in cell imaging
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In this paper, a fluorescein methacryloyl monomer (named Flu-MA) was firstly fabricated by the esterification reaction of fluorescein and methacryloyl chloride; subsequently, a novel amphiphilic fluorescent copolymer (Flu-PEG) with smart pH sensitivity was successfully prepared by RAFT copolymerizing of Flu-MA and poly(ethylene glycol) monomethacrylate (PEGMA). The result of 1H NMR and FTIR implied that both Flu-MA and PEGMA monomers were successfully incorporated into Flu-PEG copolymers, the molecular weight (M n) of which was about 39,800 with polydispersity index (PDI) as about 1.30. In aqueous solution, Flu-PEG copolymers could self-assemble into fluorescent organic nanoparticles (FONs) with about 200 nm diameters due to high water dispersibility and good fluorescence, respectively, endowed by PEGMA and Flu-MA, the fluorescence intensity of which was high sensitive to pH value of solution. More importantly, due to their high water dispersibility, excellent biocompatibility and good fluorescence, the as-prepared Flu-PEG FONs were high attractive for the application in cell imaging.
A novel amphiphilic fluorescent copolymer (Flu-PEG) with smart pH-sensitivity was successfully fabricated by RAFT copolymerizing of Flu-MA and PEGMA, which showed high water dispersibility, uniform size and excellent biocompatibility, making them be highly potential for bioimaging application.
KeywordsRAFT polymerization pH Sensitivity Cell imaging Amphiphilic fluorescent copolymers
This research was financially supported by the National Science Foundation of China (Nos. 21474057, 21104039, 21134004, 51363016), the National 973 Project (Nos. 2011CB935700), and the Science and Technology Project of Zhongshan City of China (2014A2FC309).
- 23.Liu ZC, Hu ZY, Liu Y, Meng MJ, Ni L, Meng XG, Zhong GX, Liu FF, Gao YM (2015) Monodisperse magnetic ion imprinted polymeric microparticles prepared by RAFT polymerization based on g-Fe2O3@meso-SiO2 nanospheres for selective solid-phase extraction of Cu(II) in water samples. RSC Adv 5(65):52369–52381CrossRefGoogle Scholar
- 24.Huang ZF, Fu CK, Wang SQ, Yang B, Wang X, Zhang QS, Yuan JY, Tao L, Wei Y (2015) Optically active polymer via one-pot combination of chemoenzymatic transesterification and RAFT polymerization: synthesis and its application in hybrid silica particles. Macromol Chem Phys 216(13):1483–1489CrossRefGoogle Scholar