Multicatalytic colloids with highly scalable, adjustable, and stable functionalities in organic and aqueous media

Despite a large number of developments of noble metal (or metal oxide) NP-based catalysts, it has been a great challenge to prepare high-performance recyclable catalysts with integrated functionalities that can be used in various solvent media. Here, we report on layer-by-layer (LbL) assembled multi...

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Bibliographic Details
Published in:Nanoscale 2016-04, Vol.8 (13), p.7-716
Main Authors: Kim, Donghee, Cheong, Sanghyuk, Ahn, Yun Gyong, Ryu, Sook Won, Kim, Jai-Kyeong, Cho, Jinhan
Format: Article
Language:English
Subjects:
Catalysis
Catalysts
Colloids
Dispersions
Media
Metal oxides
Solvents
Stability
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Summary:Despite a large number of developments of noble metal (or metal oxide) NP-based catalysts, it has been a great challenge to prepare high-performance recyclable catalysts with integrated functionalities that can be used in various solvent media. Here, we report on layer-by-layer (LbL) assembled multicatalysts with high catalytic performance, showing high dispersion and recycling stability in organic and aqueous media. The remarkable advantages of our approach are as follows. (i) Various metal or metal oxide NPs with desired catalytic performance can be easily incorporated into multilayered shells, forming densely packed arrays that allow one colloid to be used as a multicatalyst with highly integrated and controllable catalytic properties. (ii) Additionally, the dispersion stability of catalytic colloids in a desired solvent can be determined by the type of ultrathin outermost layer coating each colloid. (iii) Lastly, the covalent bonding between inorganic NPs and dendrimers within multilayer shells enhances the recycling stability of multicatalytic colloids. The resulting core-shell colloids including OA-Fe 3 O 4 NPs, TOABr-Pd NPs, and OA-TiO 2 NPs exhibited excellent performance in the oxidation of 3,3′,5,5′-tetramethylbenzidine (TMB) and photocatalysis in aqueous media and in the Sonogashira coupling reaction (99% yield) in organic media. Given that the catalytic properties of recyclable colloids reported to date have entirely depended on the functionality of a single catalytic NP layer deposited onto colloids in selective solvent media, our approach provides a basis for the design and exploitation of high-performance recyclable colloids with integrated multicatalytic properties and high dispersion stability in a variety of solvents. Recyclable multicatalysts with high catalytic performance in aqueous and organic media are prepared using a layer-by-layer assembly of hydrophobic catalytic nanoparticles that can allow a single colloid to induce various catalytic reactions.
ISSN:2040-3364
2040-3372
DOI:10.1039/c5nr06390f