Janet Chisem scite author profile

Potassium dichromate supported on neutral alumina is a heterogeneous catalyst for the liquid phase oxidation of hydrocarbons. The material has been used to catalyse the oxidation of ethylbenzene to acetophenone using air as the consumable oxidant with high selectivity and is truly catalytic in the metal, unlike homogeneous Cr(VI) systems. Optimisation of reaction conditions has been achieved in terms of air flow rate, agitator speed, and catalyst quantity. An induction period prior to achievement of maximum catalytic turnover, which is proportional to both temperature and the concentration of catalyst, may be reduced by doping the substrate with 5-15% acetophenone (w/w) and eliminated by doping with 30% (w/w) acetophenone. A rate of conversion of ca. 3.8% h -1 (0.39 turnover s -1 ) may be achieved at a reaction temperature of 130 °C for a period of ca. 10 h before catalyst deactivation occurs. However, this rate may be maintained for periods in excess of 24 h by continuous addition of substrate to the reaction vessel in order to maintain a constant molar ratio of substrate to product. It may thus be concluded that, at high agitator speeds, the ratelimiting factor is adsorption/desorption at the catalyst surface (and is therefore affected by the overall polarity of the medium) rather than mass transfer between solid-liquid-gas interfaces. The catalyst has been successfully recovered and reused with no induction period, and initial activity is comparable with that for fresh catalyst, although deactivation occurs readily thereafter.

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Use of a Supported Aluminium Chloride Catalyst for the Production of Hydrocarbon Resins¹

Shorrock

Clark

Wilson

et al. 2001

Org. Process Res. Dev.

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Immobilised aluminium chloride containing both strong Lewis and Brønsted acid sites is shown to be an active catalyst for the cationic polymerisation of C5 aliphatic refinery feed-streams. Particular attention is given to the improvement in the yield, the properties of resin obtained and the ability to control resin properties by changes in the precise nature of the catalyst. The use of this solid acid has resulted in a reduction in the unwanted and hazardous waste that is produced during conventional homogeneous processes. The stability of the active species on the support in a typical batch polymerisation reaction process has been determined, and particularly low leaching levels have been found.

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Janet Chisem

Catalytic oxidation of alkyl aromatics using a novel silica supported Schiff base complex

Catalytic Oxidation of Ethylbenzene to Acetophenone Using Alumina-Supported Dichromate: Process Optimisation and Development of a Continuous Process

Use of a Supported Aluminium Chloride Catalyst for the Production of Hydrocarbon Resins¹

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Janet Chisem

Catalytic oxidation of alkyl aromatics using a novel silica supported Schiff base complex

Catalytic Oxidation of Ethylbenzene to Acetophenone Using Alumina-Supported Dichromate: Process Optimisation and Development of a Continuous Process

Use of a Supported Aluminium Chloride Catalyst for the Production of Hydrocarbon Resins1

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Use of a Supported Aluminium Chloride Catalyst for the Production of Hydrocarbon Resins¹