posted on 2018-03-16, 00:00authored byJianfeng Zhang, Qunling Fang, Jinyu Duan, Hongmei Xu, Huajian Xu, Shouhu Xuan
This
work reports a novel Fe3O4@polydopamine/Au/polydopamine
core/shell nanocomposite toward a magnetically separable nanocatalyst.
Because the polydopamine (PDA) layer-sandwiched Au nanocrystals were
prepared by a layer-by-layer method, the content of Au could be controlled
by varying the Au shell number (such as burger-like Fe3O4@PDA/Au/PDA/Au/PDA). Fe3O4@PDA/Au/PDA
exhibited excellent catalytic activity in reducing p-nitrophenol because the substrate could penetrate the PDA shell.
Owing to the protection of the PDA shell, Fe3O4@PDA/Au/PDA presented higher cyclability than Fe3O4@PDA/Au. The activity of Fe3O4@PDA/Au/PDA
maintained 95% after 7 cycles, while that of Fe3O4@PDA/Au was only 61%. The detailed cycling catalytic mechanism was
investigated, and it was found that the catalytic rate of Fe3O4@PDA/Au/PDA/Au/PDA was faster than that of Fe3O4@PDA/Au/PDA because of the higher Au content. Interestingly,
this method could be extended for other magnetic nanocomposites with
two different kinds of noble metal nanocrystals integrated within
one particle, such as Fe3O4@PDA/Au/PDA/Ag/PDA
and Fe3O4@PDA/Au/PDA/Pd/PDA.