Highly Syndiotactic or Isotactic Polyhydroxyalkanoates by Ligand‐Controlled Yttrium‐Catalyzed Stereoselective Ring‐Opening Polymerization of Functional Racemic β‐Lactones

Ligny, Romain; Hänninen, Mikko M.; Guillaume, Sophie M.; Carpentier, Jean‐François

doi:10.1002/anie.201704283

Cited by 55 publications

(83 citation statements)

References 51 publications

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Section: Introductionsupporting

confidence: 83%

“…The Y{ONOO cum }/ i PrOH system (Scheme ) that combines high activities and syndiotacticities in the ROP of rac ‐BPL OR s was herein explored to promote the ROCOP of equimolar mixtures of two oppositely configurated 4‐alkoxymethylene‐β‐propiolactones bearing different substituents, ( R )‐BPL OR1 and ( S )‐BPL OR2 (Scheme ). These experiments aimed at probing, beyond the anticipated control of classical parameters of the ROP (molar mass values and dispersity, terminal functionalities), the stereocontrol of the catalyst and the targeted alternation of the enchainment of the two monomers.…”

Section: Resultsmentioning

confidence: 99%

“…Herein we report on the preparation and characterization of new PHA copolymers from a class of functional β‐lactones just recently released in ROP, 4‐alkoxymethylene‐β‐propiolactones (BPL OR s) . The alkoxymethylene moiety in this class of β‐lactones induces quite different interactions with the Y{ONXO R′,R′′ } catalysts, in particular with halogenated complexes Y{ONXO hal,hal } (hal=F, Cl, Br) in which hal⋅⋅⋅HHCOR attractive contacts apparently enforce a unique isotactic stereocontrol . The functionalities borne by the monomers (OR=OBn, OSiR 3 , OAllyl) used in this study have been selected for the potential post‐polymerization functionalization of the resulting copolymers (debenzylation, desilylation, hydrogenation, etc.…”

Section: Introductionmentioning

confidence: 99%

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Yttrium‐Mediated Ring‐Opening Copolymerization of Oppositely Configurated 4‐Alkoxymethylene‐β‐Propiolactones: Effective Access to Highly Alternated Isotactic Functional PHAs

Ligny

Guillaume

Carpentier

2019

Chemistry A European J

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The ring‐opening copolymerization (ROCOP) of functional 4‐alkoxymethylene‐β‐propiolactones (BPLORs) by yttrium‐bisphenolate complexes was investigated. The ROCOP of equimolar mixtures of BPLORs of opposite configurations, namely (R)‐BPLOR1/(S)‐BPLOR2 [R1, R2=OMe, OAllyl, OCH2Ph (=OBn), OSiMe2tBu (=OTBDMS)], by the syndioselective Y{ONOOcum}/iPrOH catalyst/initiator system affords P(HBOR1‐alt‐HBOR2) copolymers with high alternation degrees (altern.=89–94 %), as determined by comprehensive kinetic, 13C{1H} NMR spectroscopy, MALDI‐ToF MS and ESI MS/MS fragmentation studies. The ROCOP of the (R)‐BPLOMe/(S)‐BPLOTBDMS combination, featuring a large difference in the substituents’ bulkiness, constitutes the only observed exception to this trend (altern.=64 %). On the other hand, the isoselectivity of the Y{ONNOCl}/iPrOH catalyst/initiator system has been exploited to generate, in a one‐pot/one‐step procedure, original mixtures of isotactic poly(hydroxyalkanoate)s (PHAs). This system efficiently transforms equimolar mixtures of (R)‐BPLOAll/(S)‐BPLOMe into a 1:1 mixture of the corresponding isotactic iso‐(R)‐PHBOAll and iso‐(S)‐PHBOMe homopolymers; almost no copolymerization defects are observed. This new approach has been extended successfully to the ROCOP of equimolar mixtures of racemic monomers, rac‐BPLOAll/rac‐BPLOMe.

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Section: Introductionsupporting

confidence: 83%

Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Yttrium‐Mediated Ring‐Opening Copolymerization of Oppositely Configurated 4‐Alkoxymethylene‐β‐Propiolactones: Effective Access to Highly Alternated Isotactic Functional PHAs

Ligny

Guillaume

Carpentier

2019

Chemistry A European J

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“…As previously reported, the stereoselective ROP of rac-BPL OAll by diamino-bis(phenolate) yttrium catalyst provides different microstructures of PHB OAll depending on the ortho-substituent group on the ligand [21] (Scheme 1), as assessed by 13 C{ 1 H} analysis.…”

Section: Application To the Microstructural Determination Of Phb Oallmentioning

confidence: 68%

“…The PHB OR samples used for tacticity determination were synthesized according to the reported literature [21].…”

Section: Polymerization Proceduresmentioning

confidence: 99%

Evaluation of Band-Selective HSQC and HMBC: Methodological Validation on the Cyclosporin Cyclic Peptide and Application for Poly(3-hydroxyalkanoate)s Stereoregularity Determination

et al. 2018

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Band-selective (bs) HSQC, improving spectral resolution by restriction of the heteronuclear dimension without inducing spectral folding, has been recently used for polymer tacticity determination. Herein is reported an evaluation of various bs-HSQC and bs-HMBC sequences, first from a methodological point of view (selectivity, dependence to INEPT interpulse delay or relaxation delay), using the cyclic peptide cyclosporin selected as a model compound, and then from an applicative approach, comparing tacticity determined from bs-HSQC and bs-HMBC experiments to the one obtained from 1D 13 C{ 1 H} on poly(3-hydroxyalkanoate)s samples. For HSQC sequences, the 13 C selectivity scheme consisting in substituting a 13 C broadband refocalization by a selective one revealed itself problematic, with unwanted aliased signals, whereas the insertion of double pulsed field gradients spin-echo (DPFGSE) or the use of opposite sign gradients bracketing a selective refocalization gave satisfactory results. Determination of the probability of syndiotactic enchainments, P s , by bs-HSQC is fully consistent and no precision loss was observed when decreasing acquisition time (37 min vs. 106 min for 1D 13 C{ 1 H}). Bs-HMBC, although not straightforwardly applicable for tacticity determination, could provide (after a calibration step) an alternative for compounds of which only 13 C carbonyl signals are resolved enough for discriminating between syndiotactic and isotactic configurations.

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Ionic and Coordination Ring‐Opening Polymerization

Penczek¹,

Biela²,

Cypryk³

et al. 2022

Macromolecular Engineering

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This article provides the up‐to‐date and comprehensive review (over 700 citations) of all the important subjects of the ring‐opening polymerization (ROP) methods of polymers syntheses. This is the method of synthesis of several important classes of polymers that cannot be prepared in a different way (e.g., polyethers). It also complements known methods of polycondensation and ROP often is the method of choice. ROP is particularly important in syntheses of the biodegradable polymers‐polylactide and poly(ε‐caprolactone), discussed in details. Applications of these polymers, as well as polysiloxanes in biomedical applications are irreplaceable in the modern medicine. Either as bulk polymers or as nano‐ and microspheres, described In this article separately. There are sections in the present version that were not presented in the previous editions. This is description of polyoxazolines, polymers with phosphorus atoms in the chains, as well as mentioned above polysiloxanes an microspheres. We introduced also section describing novel analytical methods, particularly useful in studies of polymers with various architectures (star shape, multibranched etc.). Besides the synthetic aspects of ROP, this article describes thermodynamics and kinetic features of the living/controlled polymerizations, particularly by activated monomer mechanism and importance of dormant polymers in precision syntheses of desired structures.

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Highly Syndiotactic or Isotactic Polyhydroxyalkanoates by Ligand‐Controlled Yttrium‐Catalyzed Stereoselective Ring‐Opening Polymerization of Functional Racemic β‐Lactones

Cited by 55 publications

References 51 publications

Yttrium‐Mediated Ring‐Opening Copolymerization of Oppositely Configurated 4‐Alkoxymethylene‐β‐Propiolactones: Effective Access to Highly Alternated Isotactic Functional PHAs

Yttrium‐Mediated Ring‐Opening Copolymerization of Oppositely Configurated 4‐Alkoxymethylene‐β‐Propiolactones: Effective Access to Highly Alternated Isotactic Functional PHAs

Evaluation of Band-Selective HSQC and HMBC: Methodological Validation on the Cyclosporin Cyclic Peptide and Application for Poly(3-hydroxyalkanoate)s Stereoregularity Determination

Ionic and Coordination Ring‐Opening Polymerization

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