Polymers from sugars: cyclic monomer synthesis, ring-opening polymerisation, material properties and applications

Gregory, Georgina L.; Lopez‐Vidal, Eva M.; Buchard, Antoine

doi:10.1039/c6cc09578j

Cited by 127 publications

(119 citation statements)

References 268 publications

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“…A direct acid‐catalyzed conversion of cellulose in methanol in presence of Sn triflate also produced methyl glycolate (MGA) as side‐product next to other esters, while recent work demonstrated the use of hexoses as bio‐derived source for MGA . This work fits in the broader context of deriving polymers, and polyesters specifically, from sugar‐based biomass ,…”

Section: Methodsmentioning

confidence: 75%

Catalytic Gas‐Phase Cyclization of Glycolate Esters: A Novel Route Toward Glycolide‐Based Bioplastics

et al. 2018

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A catalytic process to produce glycolide, the cyclic dimer of glycolic acid (GA), is proposed. Glycolide is the key building block of the biodegradable plastic polyglycolic acid. Instead of the current industrial two‐step route, which involves the polycondensation of GA and a subsequent backbiting reaction, a new route based on the gas‐phase transesterification of methyl glycolate (MGA) over a fixed catalyst bed is presented. With specific supported TiO2 catalysts, a high glycolide selectivity of 75–78 % can be achieved at the thermodynamically‐limited equilibrium conversion of MGA (54 % at 300 °C, 5.6 vol% MGA, 1 atm). The absence of solvent and the continuous nature of the process should allow for easy product separation and recycling of unconverted esters, while the few side‐products, i. e. linear alkyl glycolate dimers and trimers seem recoverable via methanolysis. The reaction is compared to the cyclization of other α‐hydroxy esters, such as methyl lactate to lactide, over the same catalysts, in terms of kinetics and thermodynamics. The absence of a methyl substitution on the α‐carbon seems to lead to faster cyclization kinetics of MGA when compared to methyl lactate or the double‐substituted methyl‐2‐hydroxy‐isobutyrate. Contrarily, glycolide production is less favored thermodynamically compared to lactide. The absence of glycolide decomposition at temperatures up to 300 °C however allows to increase equilibrium conversion by taking the endergonic reaction to higher temperatures.

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Section: Methodsmentioning

confidence: 75%

Catalytic Gas‐Phase Cyclization of Glycolate Esters: A Novel Route Toward Glycolide‐Based Bioplastics

et al. 2018

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“…The rising littering of our planet with plastics and the increasing scarcity of crude oil pose new challenges for society . In addition to recycling systems and natural materials, bio‐based and biodegradable plastics are a good alternative . A plastic that meets both criteria is polylactide .…”

Section: Introductionmentioning

confidence: 99%

Towards New Robust Zn(II) Complexes for the Ring‐Opening Polymerization of Lactide Under Industrially Relevant Conditions

et al. 2019

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The synthesis of bio‐based and biodegradable plastics is a hot topic in research due to growing environmental problems caused by omnipresent plastics. As a result, polylactide, which has been known for years, has seen a tremendous increase in industrial production. Nevertheless, the manufacturing process using the toxic catalyst Sn(Oct) 2 is very critical. As an alternative, five zinc acetate complexes have been synthesized with Schiff base‐like ligands that exhibit high activity in the ring‐opening polymerization of non‐purified lactide. The systems bear different side arms in the ligand scaffold. The influence of these substituents has been analyzed. For a detailed description of the catalytic activities, the rate constants k app and k p were determined using in‐situ Raman spectroscopy at a temperature of 150 °C. The polymers produced have molar masses of up to 71 000 g mol −1 and are therefore suitable for a variety of applications. Toxicity measurements carried out for these complexes proved the nontoxicity of the systems.

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“…It has superior rheological and viscoelastic properties over many of its biodegradable polymer counterparts, which makes it easy to manufacture. It can be obtained from renewable sources using environmentally sound technologies, and is synthesized by opening the ϵ‐caprolactone ring . Because of these advantageous characteristics, it is one of the most commercially used biodegradable polymers .…”

Section: Introductionmentioning

confidence: 99%

Mechanical and Morphological Evaluation of the Reinforcement of Polycaprolactone With Different Cellulose Fibers

Aguiar

Marques

2018

Macromolecular Symposia

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In the present work, polycaprolactone composites are prepared in a twin‐screw extruder with different amounts of cellulose fibers from several sources (obtained from lignocellulosic curauá and jute, commercial cellulose samples with different lengths, and amorphized cellulose obtained by ball milling), maintaining the processing time and temperature. X‐ray diffraction reveal that almost all cellulose fibers act as nucleating agents for the polymer matrix, resulting in increase crystallinity index of the composites. The experiments with the commercial cellulose fibers indicate that shorter fibers promoted stronger nucleation effect. At low content (2 wt%), the composite PCL‐amorphized cellulose has improve thermal resistance to degradation in relation to the neat PCL. Dynamic‐mechanical analysis shows an increase in the modulus of the composites containing 5 and 20 wt% fibers.

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Polymers from sugars: cyclic monomer synthesis, ring-opening polymerisation, material properties and applications

Cited by 127 publications

References 268 publications

Catalytic Gas‐Phase Cyclization of Glycolate Esters: A Novel Route Toward Glycolide‐Based Bioplastics

Catalytic Gas‐Phase Cyclization of Glycolate Esters: A Novel Route Toward Glycolide‐Based Bioplastics

Towards New Robust Zn(II) Complexes for the Ring‐Opening Polymerization of Lactide Under Industrially Relevant Conditions

Mechanical and Morphological Evaluation of the Reinforcement of Polycaprolactone With Different Cellulose Fibers

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