Chemists often use hydrogen fluoride to attach a trifluoromethyl group to an organic compound, but under the conditions of the reaction this might produce unwanted reaction products. MIT chemists have designed a new way to attach a trifluoromethyl group to certain compounds using a palladium catalyst. The key to the success of this catalyst has been the use of a ligand called BrettPhos. During the reaction, a trifluoromethyl group is transferred from a silicon carrier to the palladium, displacing a chlorine atom. The trifluoromethyl containing molecule is then released and the catalytic cycle begins again. The chemists have tried the synthesis with a variety of aryl compounds and have achieved yields between 70% and 94%.
Reference:
Eun Jin Cho, Todd D. Senecal, Tom Kinzel, Yong Zhang, Donald A. Watson, Stephen L. Buchwald. The Palladium-Catalyzed Trifluoromethylation of Aryl Chlorides. Science, 2010; 328 (5986): 1679-1681 DOI: 10.1126/science.1190524
Study Questions
- Write the chemical formula for the trifluoromethyl group and for hydrogen fluoride.
- Write a chemical equation to show the possible reaction between hydrogen fluoride and cyclohexane.
- Write a chemical reaction to show the possible reaction between hydrogen fluoride and cyclohexene.
- For each reaction above, assuming you start with 100g of each reactant, what mass of fluorinated product would be produced if the yield was 70%?
- For each reaction above, assuming you begin with 25 moles of each reactant, what mass of fluorinated product would be produced if the yield were 94%?
- For the catalytic reaction discussed in the above article, why do you think the reaction does not produce a 100% yield?
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