J.H. Vleeming scite author profile

The effects on the platinum particle diameter and the available platinum surface area of a graphite-supported platinum catalyst resulting from pretreatments and from performing a selective oxidation reaction are investigated. In the gas phase considerable catalyst sintering occurs only in the presence of oxygen at 773 K due to extensive carbon burn-off, whereas in an aqueous phase platinum particle growth is limited upon oxidative treatment. A hydrogen treatment in aqueous phase at 363 K causes platinum particle growth, aggregate formation, and covering of metal sites. These phenomena become more important with increasing pH. Platinum particle growth and aggregate formation are attributed to platinum particle rather than platinum adatom mobility and is caused by the destruction of the oxygen-containing surface groups on the graphite support, which serve as anchorage sites for the platinum particles. Site covering is caused by products originating from the graphite support, which are formed as a result of the reductive treatments. When performing the aqueous phase oxidation of methyl α-D-glucopyranoside at 323 K and a pH of 9, catalyst modifications are small under oxidative conditions. Exposure of the catalyst for several hours to methyl α-D-glucopyranoside under the same conditions but in the absence of oxygen causes site covering.

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Selective Oxidation of Methyl α-d-Glucopyranoside with Oxygen over Supported Platinum: Kinetic Modeling in the Presence of Deactivation by Overoxidation of the Catalyst

Vleeming

Kuster

Marin

1997

Ind. Eng. Chem. Res.

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Deactivation of carbon-supported platinum catalysts during oxidations in aqueous media

Vleeming

Bruijn

Kuster

et al. 1994

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Untitled

Vleeming¹,

Kuster²,

Marin³

1997

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Reactions of Multifunctional Organic Compounds – Hydrogenation of Acrolein on Modified Pt-Catalysts

Marinelli

Vleeming

Ponec

1993

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J.H. Vleeming

Graphite-Supported Platinum Catalysts: Effects of Gas and Aqueous Phase Treatments

Selective Oxidation of Methyl α-d-Glucopyranoside with Oxygen over Supported Platinum: Kinetic Modeling in the Presence of Deactivation by Overoxidation of the Catalyst

Deactivation of carbon-supported platinum catalysts during oxidations in aqueous media

Untitled

Reactions of Multifunctional Organic Compounds – Hydrogenation of Acrolein on Modified Pt-Catalysts

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