2009
DOI: 10.1002/chem.200802115
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Chemistry of Bridging Phosphanes: A Comparative Study within CuI‐AgI‐AuI Triad‐Based Homonuclear Dimers

Abstract: Bridging ligands in Ag(I) and Au(I) bimetallic complexes: The P moiety of bis(2-pyridyl)phosphole acts as a symmetrically, semi-, or non-bridging donor in Ag(I) dimers (see figure). In related Au(I) complexes, only the non-bridging mode is observed. An unsaturated Ag(I) dimer is used as an adaptive molecular clip for the synthesis of pi-stacked metallocyclophanes.Bis(2-pyridyl)phosphole C reacted with AgPF(6) and dppm giving rise to dicationic dimer 1 in which C acts as a 1kappaN:1,2kappaP:2kappaN-donor with a… Show more

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Cited by 49 publications
(22 citation statements)
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“…The intermetallic distances within the Cu 2 fragments (2.9351(10)-3.0060(9) ) are among the longest observed to date for an M I dimer (M = Cu I , Ag I , Pd I , Pt I ) assembled by a bis(2-pyridyl)phosphole ligand with a bridging phosphane (the previous longest distance was 2.9501(6) ). [20] Nevertheless, the two mPÀCu distances are almost the same and in the range of those classically observed for bridging phosphole donors (Table 5). Despite these rather long intermetallic distances within the molecular clips, the p walls of rectangle C (Figure 7) in the solid state to form infinite p-stacked columns.…”
mentioning
confidence: 53%
See 1 more Smart Citation
“…The intermetallic distances within the Cu 2 fragments (2.9351(10)-3.0060(9) ) are among the longest observed to date for an M I dimer (M = Cu I , Ag I , Pd I , Pt I ) assembled by a bis(2-pyridyl)phosphole ligand with a bridging phosphane (the previous longest distance was 2.9501(6) ). [20] Nevertheless, the two mPÀCu distances are almost the same and in the range of those classically observed for bridging phosphole donors (Table 5). Despite these rather long intermetallic distances within the molecular clips, the p walls of rectangle C (Figure 7) in the solid state to form infinite p-stacked columns.…”
mentioning
confidence: 53%
“…For example, multidipolar NLOphore A [16] and metal-bisA C H T U N G T R E N N U N G (helicene) assembly B [17] were obtained by stereoselective coordination of predesigned p-conjugated P,N ligands to a Pd 2 + center ( Figure 1). In this context, 2,5-bis(2-pyridyl)phosphole 1 a 1 (Scheme 1) plays a special role because it is an effective N,P,N pincer ligand for the stabilization of a variety of metal dimers, including Pd I , [18] Pt I , [19] Ag I , [20] and Cu I [21] ions. In these complexes, 1 a 1 acts as a six-electron m-1kN:1,2kP:2kN…”
Section: Introductionmentioning
confidence: 99%
“…Cu2 has a distorted tetrahedral geometry due to both the chelating behavior of one of the ligands and the bridging interaction presented through P2, ranging the angles from 53.28(5)°to 159.20(17)°. The terminally bound ligand shows a close pyridyl π separation of 3.653 Å and an angle of 17.22 (26)°. This favorable π-stacking interaction may help account for the close proximity of Cu1 to Cu2, allowing for the opposing phosphane to undergo the 3-centered bridge.…”
Section: Nnј-bis(trimethylsilyl)benzenediamidinato-nnј]disilver (2mentioning
confidence: 99%
“…Examples have been reported for several late transition metals including Pt II , Pd II , [18][19][20] Rh I , [21,22] Cu I , [23,24] and most recently Ag I . [25,26] In the case of Cu and Ag a very sterically constrained phosphazole was used as the bridging ligand. On the other hand, 2 (see Scheme 2) has been recently described [6] and the catalytic ability of its Ni +2 complex to oligomerize ethylene was studied.…”
Section: Introductionmentioning
confidence: 99%
“…[24,[29][30][31][32] The difference of 0.1778 Å between the P1-Fe1 and P1-Fe2 distances highlights the semi-bridging nature of this phosphane donor. [33][34][35] The Fe-Fe distance of 2.824(1) Å in Fe 2 (L Ph ) 2 -(THF) 2 is substantially longer than those found in the diiron site of Fe-only hydrogenase structures (ca. 2.60 Å) [36,37] and their model complexes, such as Fe 2 (μ-S 2 C 3 H 6 )(CO) 6 [2.510(1) Å] [38] and [Fe 2 (μ-S 2 C 3 H 6 )(CO) 4 [42] Solution NMR spectroscopic studies showed that Fe 2 (L Ph ) 2 (THF) 2 is 31 P NMR silent, indicating this compound to be paramagnetic.…”
Section: Resultsmentioning
confidence: 98%