AI Article Synopsis
- Recent advancements have introduced dehydrogenative borylation of terminal alkynes as a more efficient method compared to traditional borylation techniques.
- The reaction utilizes lithium aminoborohydrides, leading to the successful borylation of various aromatic and aliphatic terminal alkyne substrates with high yields, predominantly producing mono-alkynylated products.
- This process has been demonstrated effectively on a larger scale and shows good stability under different conditions, while an alternate method using alkynyllithiums and amine-boranes is also viable for producing related compounds.
Article Abstract
Dehydrogenative borylation of terminal alkynes has recently emerged as an atom-economical one-step alternative to traditional alkyne borylation methodologies. Using lithium aminoborohydrides, formed in situ from the corresponding amine-boranes and -butyllithium, a variety of aromatic and aliphatic terminal alkyne substrates were successfully borylated in high yield. The potential to form mono-, di-, and tri--alkynylated products has been shown, though the mono-product is primarily generated using the presented condition. The reaction has been demonstrated at large (up to 50 mmol) scale, and the products are stable to column chromatography as well as acidic and basic aqueous conditions. Alternately, the dehydroborylation can be achieved by treating alkynyllithiums with amine-boranes. In that respect, aldehydes can act as starting materials by conversion to the 1,1-dibromoolefin and in situ rearrangement to the lithium acetylide.
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Source |
|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10144115 | PMC |
| http://dx.doi.org/10.3390/molecules28083433 | DOI Listing |
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