AI Article Synopsis
- The study explores how catalytic systems can selectively activate C-H bonds in arenes, especially near small alkyl groups.
- It highlights that C-H arylation occurs preferentially ortho to these groups, indicating that the methylene groups play a key role in this selectivity.
- The findings suggest that the preference for activating C-H bonds adjacent to alkyl substituents may be a broader pattern, differing from typical steric and electronic influences.
Article Abstract
Catalytic systems for direct C-H activation of arenes commonly show preference for electronically activated and sterically exposed C-H sites. Here we show that a range of functionally rich and pharmaceutically relevant arene classes can undergo site-selective C-H arylation ortho to small alkyl substituents, preferably endocyclic methylene groups. The C-H activation is experimentally supported as being the selectivity-determining step, while computational studies of the transition state models indicate the relevance of non-covalent interactions between the catalyst and the methylene group of the substrate. Our results suggest that preference for C(sp )-H activation next to alkyl groups could be a general selectivity mode, distinct from common steric and electronic factors.
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Source |
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| http://dx.doi.org/10.1002/anie.202205470 | DOI Listing |
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9805285 | PMC |
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