Dae Won Lee scite author profile

Many studies have been conducted on core–shell structured nanocatalysts thanks to their high thermal and physical stability. However, for a typical core–shell structure, shell thickness and pore size that affect mass transfer through the shell are difficult to control. Herein, we synthesized a different type of core–shell catalyst, in which a mesoporous silica shell encapsulates the Pd-nanocrystals-grafted-SiO2 nanobeads. With the preparation method introduced, we successfully controlled the thickness of the shell layer and generated a mesoporous texture over the shell layer. In activity tests, the production rate of hydrogen peroxide significantly increased when using the mesoporous shell catalyst over the microporous shell catalyst of similar shell thickness. The thickening of the mesoporous shell layer reduced the production rate of hydrogen peroxide. Thus, the thinner the thickness of a mesoporous shell, the more favorable in terms of pore-diffusion rate. However, the shell thickness should be adequately adjusted, because an extremely thin shell layer cannot protect the core Pd crystals from thermal agglomeration in a calcination and reduction process.

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Fe–Zn catalysts for the production of high-calorie synthetic natural gas

Lee

Kim

et al. 2015

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Hydrocracking of vacuum residue using NiWS( x ) dispersed catalysts

Hur

Lee

2016

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Dae Won Lee

Hydrogenation of CO2 to methanol over Pd–Cu/CeO2 catalysts

Catalytic activity of Pd octahedrons/SiO 2 for the direct synthesis of hydrogen peroxide from hydrogen and oxygen

Direct Synthesis of Hydrogen Peroxide from Hydrogen and Oxygen over Mesoporous Silica-Shell-Coated, Palladium-Nanocrystal-Grafted SiO₂ Nanobeads

Fe–Zn catalysts for the production of high-calorie synthetic natural gas

Hydrocracking of vacuum residue using NiWS( x ) dispersed catalysts

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Dae Won Lee

Hydrogenation of CO2 to methanol over Pd–Cu/CeO2 catalysts

Catalytic activity of Pd octahedrons/SiO 2 for the direct synthesis of hydrogen peroxide from hydrogen and oxygen

Direct Synthesis of Hydrogen Peroxide from Hydrogen and Oxygen over Mesoporous Silica-Shell-Coated, Palladium-Nanocrystal-Grafted SiO2 Nanobeads

Fe–Zn catalysts for the production of high-calorie synthetic natural gas

Hydrocracking of vacuum residue using NiWS( x ) dispersed catalysts

Contact Info

Product

Resources

About

Direct Synthesis of Hydrogen Peroxide from Hydrogen and Oxygen over Mesoporous Silica-Shell-Coated, Palladium-Nanocrystal-Grafted SiO₂ Nanobeads