New amphiphilic fluorescent CBABC-type pentablock copolymers containing pyrene group by two-step atom transfer radical polymerization (ATRP) and its self-assembled aggregation

Abstract

Abstract A series of novel amphiphilic fluorescent CBABC-type pentablock copolymers ( Py – PMMA – PEG4600 – PMMA – Py ) were prepared from BAB-type amphiphilic triblock copolymer ( PMMA – PEG4600 – PMMA ) as macroinitiator with various contents of 1-(methacryloyloxyethylamino-carboxylmethyl) pyrene ( PyMOI ) by atom transfer radical polymerization (ATRP) in toluene using CuBr/2,2-bipyridine as catalyst system. Triblock copolymer ( PMMA – PEG4600 – PMMA ) was prepared by ATRP and obtained from Br – PEG4600 – Br as macroinitiator with methyl methacrylate in tetrahydrofuran using the same catalyst. The molecular weights of pentablock copolymers which were reinitiated by PMMA – PEG4600 – PMMA macroinitiator were calculated from 1 H NMR spectra up to 42,400 gmol −1 . The polydispersity of pentablock copolymers obtained from GPC analysis was narrow between 1.10 and 1.38. The crystallinity of triblock copolymer ( PMMA – PEG4600 – PMMA ) was decreased slightly with incorporating PMMA segment. Introducing the bulky pyrene substituent into pentablock copolymer, the melting temperature was not observed and all pentablock copolymers showed amorphous patterns in wide-angle X-ray scattering (WAXS) due to decrease in the degree of crystallinity of polymer chain because of disturbing regular packing. The temperatures at 10% weight loss (Td 10 ), examined by TG analysis, showed values ranging from 265 to 323 °C in nitrogen and 264 to 313 °C in air. Fluorescence spectra of Py – PMMA – PEG4600 – PMMA – Py exhibited stronger excimer emission at ca . 480 nm due to the aggregations of pyrene group formed via interaction of the hydrophobic chains. The more content of PyMOI segment in pentablock copolymers can obtain the higher emission intensity ca . 480 nm. When there were higher PyMOI contents (84.9 wt% PyMOI ) in pentablock copolymers, they formed larger aggregates (210 nm) in SEM micrographs. On the other hand, while increasing the concentration of the polymer solution in THF, the morphology was changed from spherical (0.1 mg/mL) to chainlike (1.0 mg/mL) aggregates.