Tuesday, February 16, 2010

Pinacol boronates from arylamines

Pinacol boronates are important synthetic building blocks used predominantly in the Suzuki-Miyura coupling reaction. Instead of a boronic acid, R-B(OH)2, the hydroxyls are substituted with a cyclic organic moiety, commonly pinacol. These compounds are often generated via iridium catalysis with alcohols and diboron starting materials; the use of metals in their synthesis complicates industry synthesis, however, as boronic acids and esters at time can be unstable and thus difficult to purify. Price is also an issue, as many of these molecules are pricey.

Fanyang Mo and authors from Peking University have published a method to convert arylamines to pinacol boronates without the use of metals at room temperature. This is great news. The approach uses a Sandmeyer-type reaction sequence to activate the amine, the diboron reagent B
2pin2, and a catalytic amount of a radical initiator, benzoyl peroxide (BPO). Unfortunately, there are some limitations on the substrate scope as the substitution - and hence, the electronics - of the aryl ring strongly affect the reactivity of the arylamines. For example, meta-substitued electron donating groups are not tolerated, and steric bulk via ortho substituents do result in low yields or even trace amounts of products. Halogen substituents are tolerated, though, which could potentially be useful further on in a synthesis for orthogonal reactivity. The optimized reaction conditions and a sampling from the substrate table are below. 





As the isolation of boronic acids and esters can sometimes be tricky, the researchers were able to establish that the crude material can be treated with activated charcoal and filtered through Celite to produce a compound that can undergo the Suzuki-Miyaura reaction (under standard conditions) well.  Those provided in the paper are below.  Cool, huh?

  • Mo, F., Jiang, Y., Qiu, D., Zhang, Y., & Wang, J. (2010). Direct Conversion of Arylamines to Pinacol Boronates: A Metal-Free Borylation Process Angewandte Chemie International Edition DOI: 10.1002/anie.200905824



3 comments:

  1. Which could potentially be useful further on in a synthesis for orthogonal reactivity. The optimized reaction conditions and a sampling from the substrate table are below.
    Thanks

    ReplyDelete
  2. This sounds very promising, I dont know if they are cheaper, but they sure are very good.

    ReplyDelete
  3. If the products you look for are not in our catalog we would be pleased to offer our custom synthesis service. disodium 2-[[1-(2-chloro-5-sulphonatophenyl)-4,5-dihydro-3-methyl-5-oxo-1H-pyrazol-4-yl]azo]naphthalene-1-sulphonate

    ReplyDelete

Constructive criticism welcome; criticism for judgement's sake, not.