Article | REF: IN142 V1

Organometallic catalysis in aqueous phase assisted by activated carbon

Authors: Nicolas KANIA, Anne PONCHEL,   Eric MONFLIER

Publication date: November 10, 2011

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ABSTRACT

The adsorption capacity of activate carbon has been utilized in an original way in order to improve the transfer of matter in organometallic catalysis reactions in aqueous phase. A catalytic process has been developed, in which activated carbon facilitates the encounter between a hydrophobic substrate and a water-soluble organometallic catalyst, by containing the species in pores. The catalytic transformations take place in the pore volume. The efficiency of this process has been proven in comparison to a model two-phase aqueous catalysis reaction. Furthermore, this catalytic system is recyclable, stable and environmental friendly.

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AUTHORS

  • Nicolas KANIA: Doctor - Research associate at the University of Artois / UCCS Artois

  • Anne PONCHEL: Professor - Research professor at the University of Artois / UCCS Artois

  •   Eric MONFLIER: Professor - Research professor at the University of Artois / UCCS Artois, - Director of UCCS Artois.

 INTRODUCTION

Abstract: The adsorption capacity of activated carbons can be exploited to improve material transfer in aqueous phase organometallic catalysis reactions. An original catalytic process has been developed, in which activated carbon facilitates the encounter between a hydrophobic substrate and a water-soluble organometallic catalyst by confining the species in the pores.

Abstract :The adsorption capacity of activated carbon can be used to improve the mass transfer in an organometallic catalysis reaction in aqueous phase. An original catalytic process was developed in which the activated carbon allows the meeting between the hydrophobic substrate and the water-soluble organometallic catalyst by a confinement effectof the species.

Keywords: Activated carbon, biphasic catalysis, material transfer, sustainable chemistry.

Keywords: Activated carbon, Biphasic catalysis, mass transfer, sustainable chemistry.

Key points

Field: Organometallic catalysis in aqueous media, green chemistry

Degree of technology diffusion: Emergence | Growth | Maturity

Technologies involved : Adsorption, phase transfer

Applications: Catalysis, pollution treatment

Main French players :

University of Lille Nord de France, 59000 Lille

University of Artois, Catalysis and Solid Chemistry Unit, 62300 Lens

CNRS, UMR 8181, 59650 Villeneuve d'Ascq, France

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Aqueous phase organometallic catalysis assisted by activated carbons