2007
DOI: 10.1002/chem.200601650
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Donor‐Functionalized Polydentate Pyrylium Salts and Phosphinines: Synthesis, Structural Characterization, and Photophysical Properties

Abstract: A series of donor‐functionalized pyrylium salts have been prepared by classical condensation reactions which were further converted into the corresponding thienyl‐ and pyridyl‐substituted polydentate λ3‐phosphinines by reaction with P(SiMe3)3. Further chemical modification of these phosphorus heterocycles with Hg(OAc)2 in the presence of methanol resulted in the formation of λ5‐phosphinines. The photophysical properties of a selected series of thienyl‐ and pyridyl‐functionalized pyrylium salts, λ3‐ and λ5‐phos… Show more

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Cited by 94 publications
(99 citation statements)
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“…The spectrum of the proligand is dominated by an intense band centred at 278 nm (ε = 43700 M -1 cm -1 ), accompanied by a shoulder at 312 nm, and a weak, low-energy tail, around 350 nm. There have been very few studies of the photophysical properties of phosphinines, but we note that the spectrum is similar to that of the related 2,6-thienyl-4-methylphosphinine, 16 albeit somewhat blueshifted. The intense bands can reasonably be attributed to π−π* transitions in the aromatic rings; lower-energy transitions would be expected in the thienyl derivative owing to the more electrondonating nature of thiophene compared to benzene.…”
mentioning
confidence: 52%
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“…The spectrum of the proligand is dominated by an intense band centred at 278 nm (ε = 43700 M -1 cm -1 ), accompanied by a shoulder at 312 nm, and a weak, low-energy tail, around 350 nm. There have been very few studies of the photophysical properties of phosphinines, but we note that the spectrum is similar to that of the related 2,6-thienyl-4-methylphosphinine, 16 albeit somewhat blueshifted. The intense bands can reasonably be attributed to π−π* transitions in the aromatic rings; lower-energy transitions would be expected in the thienyl derivative owing to the more electrondonating nature of thiophene compared to benzene.…”
mentioning
confidence: 52%
“…On the basis of TD DFT calculations, Mueller et al assigned a similarly weak lowenergy tail to a symmetry-forbidden S 0 →S 1 transition. 16 The absorption spectrum of the Pt(II) complex 1 shows an intense band at a similar value to L p , presumably due to the superposition of intraligand transitions in the phosphinine with those of the phenylpyridine, but there are clearly now additional, moderately intense bands in the 330-400 nm region (Fig. 3, Table 1).…”
mentioning
confidence: 92%
“…The preparation of phosphinine complexes containing transition metals in medium‐to‐higher oxidation states, on the other hand, has been largely neglected13 due to their extreme sensitivity to nucleophilic attack 14. Recently, we could achieve the synthesis and crystallographic characterization of hitherto unknown phosphinine–M II[15–17] and cationic phosphinine–M III[18] complexes containing the chelating P,N hybrid ligand 2‐(2′‐pyridyl)‐4,6‐diphenylphosphinine19 (Figure 1, type B ). It turned out that an efficient protection of the PC double bond along with a kinetic stabilization of the corresponding complexes occurred, due to the incorporation of a sterically demanding aryl group in the ortho position of the phosphinine ligand.…”
Section: Introductionmentioning
confidence: 99%
“…16,17 We recently started to investigate the synthesis, reactivity, and coordination chemistry of 2-(2¤-pyridyl)-4,6-diphenylphosphinine (5), which is readily available from the pyridyl-functionalized pyrylium salt and P(SiMe 3 ) 3 . 18 Interestingly, the pyrylium salt route further allows the preparation of (bi)pyridines such as 2-(2¤-pyridyl)-4,6-diphenylpyridine (6). These nitrogen derivatives have an identical substitution pattern to the corresponding phosphinines, making the direct comparison of structurally related heterocycles possible for the first time (Scheme 2).…”
mentioning
confidence: 99%