Phosphasalen vs. Salen Ligands: What Does the Phosphorus Change?

Marín, Irene Mustieles; Auffrant, Audrey

doi:10.1002/ejic.201701210

Cited by 15 publications

(3 citation statements)

References 104 publications

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“…Their steric and electronic characteristics can indeed be easily tuned by choosing the appropriate diimine bond and phenyl ring substituents. More drastic modifications of the ligand were also made by replacing either one or both imine functions with an amine or with an iminophosphorane . These systems were found to be very efficient, sometimes even outperforming the parent Salen ligands .…”

Section: Introductionmentioning

confidence: 99%

Bis(salicylamidine) Ligands (FAlen): A Variant of Salen with “à la Carte” Denticity

et al. 2023

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Ethylene- and phenylene-bridged bis(salicylamidine) ligands have been readily prepared from ethylene or phenylenediamine and iminium chloride derivatives generated in situ from N,N-dialkylsalicylamides. The former, in its diprotonated form (FAlenH2), reacts with AlMe3 to afford a zwitterionic dimethyldiphenoxyaluminate complex with the FAlen ligand monoprotonated and in a bidentate κ2 O,O′ fashion. A phenylene-bridged proligand behaves differently, yielding a neutral methylaluminum complex bearing a κ3 O,N,O′-coordinated FAlen ligand. From these complexes, methyl anion abstraction with B(C6F5)3 or a reaction with Schrock’s alcohol leads to the corresponding aluminum cationic or alkoxy complexes in which a κ4 O,N,N′,O′-coordination mode of the FAlen ligand is observed. X-ray diffraction studies of the proligands and of the complexes show that the amidine functions feature a trans configuration when the N-amidine atom is not coordinated to the metal and conversely a cis configuration when it is. Density functional theory calculations show that trans–cis isomerization of the amidine functions occurs upon coordination with the metal ion with very low energy barriers. They also confirm the intuition that the denticity of the FAlen ligands in the complexes is directly related to the electron richness of the metal ion. At last, FAlen Al complexes are used as initiators for the controlled ring-opening polymerization of rac-lactide to afford poly(lactic acid) with slight isotactic bias.

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Section: Introductionmentioning

confidence: 99%

Bis(salicylamidine) Ligands (FAlen): A Variant of Salen with “à la Carte” Denticity

et al. 2023

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“…While some of these differences can be explained by mechanistic considerations, the lack of direct structure/function studies hinders a deeper understanding of these systems. For example, it is generally recognized that phosphinimino (PN) groups are both σ and π donors and therefore more electron-donating compared to imino groups (CN), but it is not clear to what extent this influences the Lewis acidity, and thus the catalytic activity, of indium catalysts.…”

Section: Introductionmentioning

confidence: 99%

“…20 While some of these differences can be explained by mechanistic considerations, the lack of direct structure/function studies hinders a deeper understanding of these systems. For example, it is generally recognized that phosphinimino (PN) groups are both σ and π donors and therefore more electron-donating compared to imino groups (CN), 32 Employing these and other highly active indium complexes for the ROP of lactide in combination with other cyclic esters is an attractive route for the controlled synthesis of oxygenated block copolymers. 33 The simplest route to the formation of block copolymers is the sequential addition of monomers; it is significantly more challenging to generate them in a controlled fashion through the simultaneous addition of monomers.…”

Section: ■ Introductionmentioning

confidence: 99%

Comparison of Imine- and Phosphinimine-Supported Indium Complexes: Tuning the Reactivity for the Sequential and Simultaneous Copolymerization of Lactide and ε-Caprolactone

Díaz

Soobrattee

et al. 2022

Inorg. Chem.

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Imine- and phosphinimine-supported indium complexes were used as catalysts in the polymerization of racemic lactide and ε-caprolactone as well as their copolymerization by the sequential and simultaneous addition of monomers. Tuning the electronics and sterics of the indium centers by either (i) changing the nature of the nitrogen donors and (ii) coordinating a hemilabile side group had a significant effect on the reactivity of the complexes, their stability, and their control in the synthesis of block copolymers. Specifically, the imine-supported complex (5) showed the highest activity in the homo- and copolymerization of the cyclic esters, in contrast to the phosphinimine-supported complex (7), which was significantly slower and less stable. The presence of morpholine and thiomorpholine hemilabile side groups either reduced the activity or prevented the formation of alkoxide complexes.

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One‐Electron Reduction of 2‐Mono(2,6‐diisopropylphenylimino)acenaphthene‐1‐one (dpp‐mian)

Lukoyanov

Ulivanova

Razborov

et al. 2019

Chemistry A European J

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The electrochemical characteristics of 2‐mono(2,6‐diisopropylphenylimino)acenaphthene‐1‐one (dpp‐mian) have been investigated. One‐electron reduction of dpp‐mian involves the iminoketone fragment, which is revealed by the EPR spectrum obtained after the electrolysis of the dpp‐mian solution in tetrahydrofuran (THF). The reduction of dpp‐mian with one equivalent of metallic potassium leads to a similar EPR spectrum. The sodium complex [(dpp‐mian)Na(dme)]2 (1) produces an EPR signal with hyperfine coupling on the nitrogen atom of the iminoketone fragment of the dpp‐mian ligand. Dpp‐mian can also be reduced in a one‐electron process by SnCl2×(dioxane). In this case, complex (dpp‐mian)2SnCl2 (2) is formed, with the tin atom displaying an oxidation state of +4. Tin(II) chloride dihydrate, SnCl2×2(H2O), also reduces dpp‐mian, but the two ligands bound to tin in the product form a new carbon–carbon bond between the ketone moieties of the dpp‐mian monoanions to form complex (bis‐dpp‐mian)HSnCl3 (3). Metallic tin reduces dpp‐mian to form the (bis‐dpp‐mian)2Sn (4) species. Compounds 1–4 were characterized by X‐ray diffraction.

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Phosphasalen vs. Salen Ligands: What Does the Phosphorus Change?

Cited by 15 publications

References 104 publications

Bis(salicylamidine) Ligands (FAlen): A Variant of Salen with “à la Carte” Denticity

Bis(salicylamidine) Ligands (FAlen): A Variant of Salen with “à la Carte” Denticity

Comparison of Imine- and Phosphinimine-Supported Indium Complexes: Tuning the Reactivity for the Sequential and Simultaneous Copolymerization of Lactide and ε-Caprolactone

One‐Electron Reduction of 2‐Mono(2,6‐diisopropylphenylimino)acenaphthene‐1‐one (dpp‐mian)

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