(+)‐Cinchonine‐Decorated Dendrimers as Recoverable Organocatalysts

Rull, Jordi; Casals, Martí; Sebastián, Rosa Marı́a; Vallribera, Adelina; Majoral, Jean‐Pierre; Caminade, Anne‐Marie

doi:10.1002/cctc.201500580

Cited by 10 publications

(11 citation statements)

References 64 publications

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“…Two examples with phosphorhydrazone dendrimers has shown the pertinence of this approach (Fig. 19 [73,75]), and recovery and reuse over 10 cycles was also demonstrated without loss of activity or enantioselectivity. Most of the work concerning catalysis with dendrimers demonstrates that the outcome of the catalytic reactions is generation dependant, but not linearly, and the "best" generation is not always the same.…”

Section: Resultsmentioning

confidence: 90%

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Homogeneous catalysis with phosphorus dendrimer complexes

Caminade

Laurent

2019

Coordination Chemistry Reviews

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Dendrimers are highly branched macromolecules, which have properties in many different fields, in particular for catalysis. This review presents an exhaustive view about complexes of phosphoruscontaining dendrimers (having a phosphorus atom at each branching point), used as homogeneous catalysts in a range of reactions. First, catalysed reactions for CC bonds formation using Pd, Rh, Ru, or Sc complexes will be displayed; then formation of CO and C-N bonds using Cu complexes as catalysts will be shown. At the end, miscellaneous reactions catalysed without metal (organocatalysis) will be displayed. Despite their size, dendrimers are generally soluble in the reaction media, thus they afford homogeneous catalysts. However, their size is by far larger than the size of the reagents and products, thus they are generally easily separated, simply by adding a solvent in which the products are soluble, but not the dendrimers. The recovery and reuse of dendrimers (recycling) is an important advantage compared to classical monomeric catalysts, which will be emphasized in this review, together with the so-called dendrimer (or dendritic) effect, which is an enhancement of a property when the size of the dendrimer increases.

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Section: Resultsmentioning

confidence: 90%

“…Generation 1 was found the most efficient catalyst. Its recovery and reuse over 10 cycles was demonstrated without loss of activity or enantioselectivity [73].…”

Section: Organocatalysis With Phosphorus-containing Dendrimersmentioning

confidence: 99%

Homogeneous catalysis with phosphorus dendrimer complexes

Caminade

Laurent

2019

Coordination Chemistry Reviews

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“…However, selective modification of the dendrimer surface for various functions is very difficult . As a typical example, we note a surface modification of phosphorus‐containing dendrimers to obtain (+)‐cinchonine fragments . The interaction between phenol, formaldehyde and G0 or G1 PAMAM dendrimers results in the production of two dendrimers containing pendant benzoxazine groups .…”

Section: Preparation Of Chelating Dendrimersmentioning

confidence: 99%

Synthetic Methodologies for Chelating Polymer Ligands: Recent Advances and Future Development

Джардималиева

Uflyand

2018

ChemistrySelect

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This review summarizes recent progress in synthetic methodologies of chelating polymer ligands such as linear, branched, cross‐linked, grafted polymers, polymer films, liquid crystal polymers, dendrimers, star‐shaped and hyperbranched polymers. The features of methods for producing chelating polymer ligands are considered in detail: free‐radical (co)polymerization, living/controlled radical, metathesis, grafted, chemical oxidized, microwave‐assisted and asymmetric polymerization, electropolymerization, cyclopolymerization, polycondensation, post‐polymerization modification, click chemistry methods and “green” synthesis. The main directions of the development of synthetic chemistry of chelating polymeric ligands are analyzed. The bibliography includes works published in the last five years.

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“…Many functionalized phenols have been prepared from tyramine;, this includes functions having biological properties such as azabisphosphonic acid salts, of different types, diverse amino phosphonates, azabis carboxylate and azabis sulfonate salts, several mannose derivatives, ethacrynic acid, diverse phosphines such as an azabisphosphine, a thiazolylphosphine, and an iminophosphine, diverse fluorophores such as a maleimide, and a derivative of rhodamine . Other functionalized phenols comprise ligands for catalysis, such as phosphine, and diphosphine, iminophosphine, aminophosphine, diketone, pyridineimine, terpyridine, bisoxazoline, prolinol derivative, and cinchonine, diverse other compounds, such as aminophosphoniums, thioesters and thioamides, two types of ethacrynic derivatives,, long chains of type alkyl or perfluoroalkyl, or PEG (polyethyleneglycol), and fluorescent groups based on stilbazole or fluorene derivatives , . Miscellaneous functions are nitrile and dimethylamino, or alkyne and azide, or d ‐xylose, or ammonium (Figure ).…”

Section: Synthesis Of Phosphorhydrazone Dendrimers and Dendronsmentioning

confidence: 99%

Phosphorhydrazones as Useful Building Blocks for Special Architectures: Macrocycles and Dendrimers

Majoral

Caminade

2018

Eur J Inorg Chem

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The role of phosphorhydrazide derivatives, in particular of type RP(X)(NMeNH 2 ) 2 for the synthesis of macrocycles and of type Cl 2 P(X)NMeNH 2 (X = O, S in both cases) for the synthesis of dendrimers, will be shown in this review. In both cases, condensation reactions with different types of aldehydes [a] Scheme 1. The first macrocycles obtained by condensation of two equiv. of phosphodihydrazides with two equiv. of dialdehydes.1460 Scheme 5. First example of a spherand based on phosphorhydrazides.Scheme 6. Phosphotrihydrazides for the synthesis of cryptands and macrocyclic polymers. 1461 Scheme 8. Two ways for the functionalization of N 3 P 3 Cl 6 with two functions in a 1:5 or 5:1 ratio. In the bottom, two cyclotriphosphazenes associated by fluorescent diphenols.Thanks are due to the CNRS, to the ANR 2017 SLOW2 for financial support, and to the GDR Phosphore.

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(+)‐Cinchonine‐Decorated Dendrimers as Recoverable Organocatalysts

Cited by 10 publications

References 64 publications

Homogeneous catalysis with phosphorus dendrimer complexes

Homogeneous catalysis with phosphorus dendrimer complexes

Synthetic Methodologies for Chelating Polymer Ligands: Recent Advances and Future Development

Phosphorhydrazones as Useful Building Blocks for Special Architectures: Macrocycles and Dendrimers

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