Abstract
The use of metal oxides as supports for palladium and copper (Pd–Cu) nanoalloys constitutes a new horizon for improving new active catalysts in very important reactions. From the literatures, Pd-based bimetallic nanostructures have great properties and active catalytic performance. In this work, nanostructures of titanium dioxide (TiO2) were used as supports for Pd–Cu nanoparticles catalysts. Palladium and copper were deposited on these supports using the sol-immobilisation method. The composite nanoalloys were characterized using transmission electron microscopy (TEM) and X-ray photoelectron spectroscopy (XPS). The catalyst was evaluated for the oxidation of benzyl alcohol. The effect of the Cu–Pd ratio using sol-immobilization methods supported on TiO2 was investigated. The results show that monometallic Cu/TiO2 was observed to have a low activity. However, as soon as the catalyst contained any palladium, the activity increased with a significant increase in the selectivity towards isomerization products. The influence of support and temperature were investigated. Furthermore, the catalyst reusability was also tested for oxidation of benzyl alcohol reactions, by repeatedly performing the same reaction using the recovered catalyst. The Pd–Cu/TiO2 catalyst displayed better reusability even after several reactions
Highlights
The oxidation of alcohols is an important chemical reaction for the synthesis of aldehydes, which are useful intermediaries and final products for several pharmaceutical, perfume, beverage, and agrochemical industries [1,2,3,4]
The selective oxidation of alcohols is important for research carried out in academic laboratories as well as in industry research and development
It is a common approach for the synthesis of different carbonyl compounds [5]
Summary
The oxidation of alcohols is an important chemical reaction for the synthesis of aldehydes, which are useful intermediaries and final products for several pharmaceutical, perfume, beverage, and agrochemical industries [1,2,3,4]. Oxidation of benzyl alcohol produces benzaldehyde, which is a valuable intermediate and has several applications in the synthesis of fine chemicals, pharmaceutical and agrochemical products, flavouring additives and fragrances [6,9,10]. Strong oxidizing agents, such as potassium permanganate and dichromate, are used in industries to produce benzaldehyde due to the feasibility of controlling the reaction conditions with high yield [11,12]. These oxidants are not the most suitable reagents for industries as they can, due to their toxic nature, cause serious environmental damage, and, in addition, because of their high cost [13,14,15]
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