1. Redox--Transmetalation Process as a Generalized Synthetic Strategy for Core--Shell Magnetic Nanoparticles.
- Author
-
Woo-Ram Lee, Mm Gyu Kim, Joon-Rak Choi, Jong-ll Park, Seung Jin Ko, Sang Jun Oh, and Jinwoo Cheon
- Subjects
- *
NANOPARTICLES , *MAGNETIC properties , *NANOSTRUCTURES , *COBALT , *GOLD , *PALLADIUM , *PLATINUM - Abstract
Although multicomponent core-shell type nanomaterials are one of the highly desired structural motifs due to their simultaneous multifunctionalities, the fabrication strategy for such nanostructures is still in a primitive stage. Here, we present a redox-transmetalation process that is effective as a general protocol for the fabrication of high quality and well-defined core-shell type bimetallic nanoparticles on the sub-10 nm scale. Various core-shell type nanomaterials including Co@Au, Co@Pd, Co@Pt, and Co@Cu nanoparticles are fabricated via transmetalation reactions. Compared to conventional sequential reduction strategies, this transmetalation process has several advantages for the fabrication of core-shell type nanoparticles: (i) no additional reducing agent is needed and (ii) spontaneous shell layer deposition occurs on top of the core nanoparticle surface and thus prevents self-nucleation of secondarily added metals. We also demonstrate the versatility of these core-shell structures by transferring Co@Au nanoparticles from an organic phase to an aqueous phase via a surface modification process. The nanostructures, magnetic properties, and reaction byproducts of these core-shell nanoparticles are spectroscopically characterized and identified, in part, to confirm the chemical process that promotes the core-shell structure formation. [ABSTRACT FROM AUTHOR]
- Published
- 2005
- Full Text
- View/download PDF