1. Fabricating highly catalytically active block copolymer/metal nanoparticle microstructures at the liquid/liquid interface.
- Author
-
Diao, Qi, Li, Xiaoyang, Diao, Mengxiao, Lee, Yong-Ill, and Liu, Hong-Guo
- Subjects
- *
METAL nanoparticles , *BLOCK copolymers , *CATALYTIC activity , *MICROSTRUCTURE , *LIQUID-liquid interfaces - Abstract
Hypothesis Our previous studies have shown that the metal nanoparticle/polymer composite structures fabricated at the liquid/liquid interface have good reusability but lower catalytic activity for heterogeneous reactions in aqueous solutions. This should be attributed to the poor water wettability and more compact structure of the polymer matrices. Therefore, it should be possible to improve the catalytic activity through designing and fabricating a porous composite structure with good water wettability. Experiments A modified liquid/liquid interface adsorption and fabrication method was used. An aqueous solution of copper acetate and a chloroform/DMF mixed solution of PS- b -PAA acted as the two phases. Through spontaneous emulsification, self-assembly of the polymer molecules with Cu 2+ ions in the droplets, and adsorption of the formed spherical micelles and nanofibers to the planar liquid/liquid interface, a porous composite microstructure was formed. Findings This structure consisted of nanofiber-connected nanospheres which have a PS core and a PAA corona. Tiny and well-dispersed Cu nanoparticles were embedded in the hydrophilic corona and were adsorbed on the nanofibers surface as well. After physical cross-linking with 1,6-diaminohexane, the composite material exhibited high catalytic activity and good reusability for the reactions in aqueous solutions. For example, the rate constant for the reduction of p -nitroaniline reached 1965 s −1 g −1 . [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF