关键词: 荧光研究, 缔合行为, 聚集体结构, 增粘, 共聚物P(AM/POEA)

The different steady-state and dynamic fluorescence methods, including luminescence probe, label fluorescence and fluorescence quenching measurements, have been used to investigate the association properties of the copolymer P(AM/POEA), composed of acrylamide (AM) and a small amount of 2-phenoxyethyl acrylate (POEA) (x_POEA≤0.01) as hydrophobe in aqueous solution. The experimental results show that the self-associating behavior and aggregate structure of the copolymer are significantly dependent on their chain structure and concentration. The copolymers with the multi-blocky structure obtained by micellar copolymerization exhibit a large thickening property due to the intermolecular hydrophobical association, but that does not occur in the case of the random copolymers prepared by the conventional copolymerization. The association type and the thickening ability of the copolymers were found to directly related to the hydrophobe content of copolymer. With raising hydrophobe content the reduced viscosity firstly increases and then decreases due to the competition between intra- and inter-chain associations. Based on the fluorescence studies the multi-polymeric aggregate structure model was suggested, which further grows into cross-linked multi-aggregate and network as polymer aggregate concentration is increased. The ordered alignment phenomena of hydrophobe in the aggregate were also observed.

Key words: fluorescence study, association behavior, aggregate structure, viscosity enhancement, copolymer P(AM/POEA)