3H-1,2,3,4-Triazaphosphole derivatives can be selectively alkylated with Meerwein's reagent at the most nucleophilic nitrogen atom. According to the principle of valence isoelectronicity, the corresponding phosphorus heterocycle represents the first formal phosphorus analogue of the well-known 1,2,3-triazolylidenes (mesoionic carbenes). Theoretical calculations revealed that the cation in triazaphospholenium tetrafluoroborate is an aromatic system with a high degree of π-conjugation. First investigations showed that the cationic phosphorus heterocycle can stabilize a [Cu Br ] dianion by formation of a neutral coordination compound with an unusual bonding situation between phosphorus and copper(I).
A six‐membered phosphabenzene contracts to a five‐membered hydroxylphospholene oxide in the presence of hydrochloric acid. This unusual reaction can only proceed because the special electronic properties of phosphinines, in combination with the particular reactivity of low‐coordinate organophosphorus species, allow sequential reactions at the aromatic phosphorus heterocycles; this is in clear contrast to functionalized pyridines. More information can be found in the Research Article by C. Müller and co‐workers (DOI: 10.1002/chem.202203406).
Novel tosyl- and mesitylsulfonyl-substituted triazaphospholes were synthesized and structurally characterized. In an attempt to prepare the corresponding Au(I)-complexes with stoichiometric amounts of AuCl·S(CH3)2, cyclo-1,3-diphospha(III)-2,4-diazane-AuCl-complexes were obtained instead. Our here presented...
A 3-amino-functionalized phosphabenzene (phosphinine) has been synthesized and structurally characterized. The pyramidalized nitrogen atom of the dimethylamino substituent indicates only a weak interaction between the lone pair of the nitrogen atom and the aromatic phosphorus heterocycle, resulting in somewhat basic character. It turned out that the amino group can indeed be protonated by HCl.In contrast to pyridines, however, the phosphabenzeneammonium salt undergoes a selective ring contraction to form a hydroxylphospholene oxide in the presence of additional water. Based on deuterium labeling experiments and quantum chemical calculations, a rational mechanism for this hitherto unknown conversion is proposed.
An unexpected route to hitherto unknown amidine-functionalized phosphinines has been developed that is rapid and simple. Starting from primary amines and CF3-substituted λ3,σ2-phosphinines, a cascade of dehydrofluorination reactions leads selectively...
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