Reactivity of Aromatic Phosphorus Heterocycles – Differences Between Nonfunctionalized and Pyridyl‐Substituted 2,4,6‐Triarylphosphinines

Pfeifer, Gregor; Ribagnac, Philippe; Goff, X. Le; Wiecko, Jelena; Mézailles, Nicolas; Müller, Christian

doi:10.1002/ejic.201403048

Cited by 13 publications

(6 citation statements)

References 45 publications

(37 reference statements)

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“…Similarly, the P=C double bond in phosphinine sulfides is also prone to addition reactions in the presence of water or alcohols, as already demonstrated by us. [12b] …”

Section: Resultsmentioning

confidence: 99%

Making Aromatic Phosphorus Heterocycles More Basic and Nucleophilic: Synthesis, Characterization and Reactivity of the First Phosphinine Selenide

Wossidlo

Frost

Lin

et al. 2021

Chemistry A European J

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The synthesis and isolation of a phosphinine selenide was achieved for the first time by reacting red selenium with 2,6-bis(trimethylsilyl)phosphinine. The rather large coupling constant of 1 J P,Se = 883 Hz is in line with a PÀ Se bond of high s-character. The σ-electron donating Me 3 Sisubstituents significantly increase the energy of the phosphorus lone pair and hence its basicity, making the heterocycle considerably more basic and nucleophilic than the unsubstituted phosphinine C 5 H 5 P, as confirmed by the calculated gas phase basicities. NBO calculations further reveal that the lone pairs of the selenium atom are stabilized through donor-acceptor interactions with antibonding orbitals of the aromatic ring. The novel phosphinine selenide shows a distinct reactivity towards hexafluoro-2-butyne, Au(I) Cl as well as i PrOH. Our results pave the way for new perspectives in the chemistry of phosphorus in low coordination.

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“…Similarly, the P=C double bond in phosphinine sulfides is also prone to addition reactions in the presence of water or alcohols, as already demonstrated by us. [12b] …”

Section: Resultsmentioning

confidence: 99%

Making Aromatic Phosphorus Heterocycles More Basic and Nucleophilic: Synthesis, Characterization and Reactivity of the First Phosphinine Selenide

Wossidlo

Frost

Lin

et al. 2021

Chemistry A European J

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“…Phosphinines (the phosphorus analogue of pyridine) are fascinating ligands in coordination chemistry because they contain phosphorus in an unusual, multiply bonded environment. − This gives them unique properties including diagnostic 31 P{ 1 H} NMR resonances at high chemical shifts in an “aromatic” region and variable binding modes such as η 6 binding − and nondirectional η 1 binding. − Electronically, phosphinines function as π-accepting ligands − but can also function as noninnocent ligands due to facile nucleophilic attack at P under certain conditions. − Monodentate phosphinine ligands − and hybrid ligands, where the phosphinine is connected to another donor, − ,,− are being increasingly explored in coordination chemistry and catalysis; however, ligands based on multiple phosphinine units are much rarer. , Examples include a trans -coordinating diphosphinine, diphosphorus analogue of 2,2′-bipyridine ( A , tmbp: 4,4′,5,5′-tetramethyl-2,2′-biphosphinine, Chart ), ,, and very recent work on multidentate phosphanyl phosphinines . Using a very versatile diazaphosphinine methodology, − Mathey, Le Floch, and co-workers synthesized and studied the coordination chemistry of silyl-substituted multidentate phosphinine ligands with Ir, Rh, , Au, and W(CO) 3 . , A bis(phosphinine) with a SiMe 2 linker and featuring 3,3′-Ph substituents was also synthesized (Chart , B ), and although its reduction chemistry was studied in detail...…”

Section: Introductionmentioning

confidence: 99%

Unexpected Multiple Coordination Modes in Silyl-Bridged Bis(phosphinine) Complexes

Cleaves

Mansell

2019

Organometallics

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The bis(phosphinine) [bis{3-methyl-6-(trimethylsilyl)phosphinine-2-yl}dimethylsilane] (1) was synthesized and its coordination chemistry explored. Molybdenum and chromium carbonyl complexes were crystallographically characterized featuring 1 bound η 6 through one phosphinine [Mo(CO) 3 (η 6 -1)] (2Mo), η 6 through both phosphinines to two metal centers [{M(CO) 3 } 2 (μ-η 6 :η 6 -1)] (3M 2 , M = Cr, Mo), and chelating with η 1 coordination through both phosphines [M(CO) 4 (κ:η 1 :η 1 -1)] (4M, M = Cr, Mo). However, only 3Mo 2 could be isolated analytically pure. Heating species 3Mo 2 in the presence of [Pd(COD)Cl 2 ] removed one CO ligand and generated [{Mo(CO) 2 }(μ-κ:η 1 η 6 -η 6 -1){Mo(CO) 3 }] (5), which is the first crystallized example of a bis(phosphinine) featuring chelating η 1 and η 6 coordination, as well as a metal center bound to two phosphinines with different binding modes. In order to enforce a chelating bis-η 1 binding mode, the Ru complex [Ru(Cp*)(Cl)(κ:η 1 :η 1 -1)] ( 6) was prepared, demonstrating that judicious choice of metal fragment can dictate the coordination mode of a bis(phosphinine). Conversion of 6 to the hydride species [Ru(Cp*)(H)(κ:η 1 :η 1 -1)] ( 7) afforded the first crystallographically characterized example of a complex with both phosphinine and hydride ligands at the same metal center.

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“…Methanol could be used as a suitable agent for the addition on the phosphorus-carbon double bond of phosphinines 113 (Scheme 46). 68 On the other hand, the oxidation can also be achieved by an exchange process from an aminophosphinine under acidic conditions. In particular, concentrated hydrochloric acid was used in the case of the λ 5 -phosphinine 115 to synthesize the corresponding ester 116.…”

Section: P-oxidation-oxygenationmentioning

confidence: 99%

Six-Membered Rings With One Phosphorus Atom

Rammal¹,

Magné²,

Berionni³

et al. 2022

Comprehensive Heterocyclic Chemistry IV

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Reactivity of Aromatic Phosphorus Heterocycles – Differences Between Nonfunctionalized and Pyridyl‐Substituted 2,4,6‐Triarylphosphinines

Cited by 13 publications

References 45 publications

Making Aromatic Phosphorus Heterocycles More Basic and Nucleophilic: Synthesis, Characterization and Reactivity of the First Phosphinine Selenide

Making Aromatic Phosphorus Heterocycles More Basic and Nucleophilic: Synthesis, Characterization and Reactivity of the First Phosphinine Selenide

Unexpected Multiple Coordination Modes in Silyl-Bridged Bis(phosphinine) Complexes

Six-Membered Rings With One Phosphorus Atom

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