AI Article Synopsis
- The text discusses the necessity of using excess butyllithium (n-BuLi) for effective directed ortho-lithiation of trifluoromethyl sulfoximine.
- It details low-temperature NMR analysis revealing that the first deprotonation produces dimeric and tetrameric N-lithiated sulfoximines in a specific ratio (93:7).
- The study identifies and characterizes six different species formed during the reaction, including three significant aggregates of dilithiated sulfoximine with varying solvation by THF molecules.
Article Abstract
This work shows why it is imperious to use an excess of butyllithium for a directed ortho-lithiation of a trifluoromethyl sulfoximine. The analysis of mixtures of n-BuLi and sulfoximine 1 in THF-d using { H, Li, C, N, F} NMR experiments at low temperatures reveal that a first deprotonation occurs that leads to dimeric and tetrameric N-lithiated sulfoximine (93 : 7). Using an excess n-BuLi (5 equivalents), the second deprotonation on the ortho-position of the aromatic occurs. Six species were observed and characterized on the way. It includes three aggregates involving a sulfoximine: i) a [dilithiated sulfoximine/(n-BuLi)] dimer solvated by four molecules of THF (Agg2, 39 %); ii) a [dilithiated sulfoximine/(n-BuLi) ] tetramer solvated by six molecules of THF (Agg3, 39 %); iii) a [dilithiated sulfoximine/(n-BuOLi) ] tetramer solvated by four molecules of THF (Agg1, 22 %). A DFT study afforded optimized solvated structures for all these aggregates, fully consistent with the NMR data.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10108270 | PMC |
| http://dx.doi.org/10.1002/anie.202214106 | DOI Listing |
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