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RUDN University Chemist Synthesise Catalyst to Produce Anti-Mosquito Substances

A chemist from RUDN University has created a catalyst for the production of eugenol acetate, a substance that kills the larvae of mosquitoes transmitting harmful diseases. The article was released within the journal Supplies.
Aedes aegypti mosquitoes carry the Zika virus, yellow fever, chikungunya, and dengue fever. As much as 20% of sufferers with yellow fever die, although there’s a vaccine.
There isn’t a treatment or vaccine for the Zika virus or dengue fever.
Therefore, the destruction of carriers is the one efficient method of combating the unfold of diseases. It’s easier to kill mosquitoes at the larval stage, so an effective and affordable anti-larva drug, similar to eugenol acetate, can humankind.
Eugenol is the main element in the acetylation response, obtained from clove oil. Nonetheless, it’s not easy to synthesize pure eugenol acetate without impurities and with the high content material of the target product (as much as 90%).
It is because catalysts suitable for such synthesis haven’t been created yet, and there aren’t any non-catalytic strategies for producing eugenol acetate.
The yield of eugenol acetate in the reactions utilized in trade is only 20 to 30%.
RUDN chemist Rafael Luque has developed a brand new catalyst for eugenol acetylation to resolve this downside.
The chemists ensured that the catalyst might be removed from the reaction zone and reused as well as the temperature and reaction time are low while the result of the target product is excessive.

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