Synthesis of Bio-Based Thermoset Mixture Composed of Methacrylated Rapeseed Oil and Methacrylated Methyl Lactate: One-Pot Synthesis Using Formed Methacrylic Acid as a Continual Reactant

Jašek, Vojtěch; FUČÍK, Jan; Melčová, Veronika; Figalla, Silvestr; Mravcová, Ludmila; Krobot, Štěpán; Přikryl, Radovan

doi:10.3390/polym15081811

Cited by 4 publications

(3 citation statements)

References 31 publications

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“…This is caused by an increase in the hydrophobicity with longer alkyl chains, which lowers product loss during the aqueous workup. The present reaction conditions outperform those previously reported in terms of efficiency and from a green chemistry standpoint by using a reusable catalyst. ,, …”

Section: Resultssupporting

confidence: 46%

“…The present reaction conditions outperform those previously reported in terms of efficiency and from a green chemistry standpoint by using a reusable catalyst. 30,33,42 3D Printing of Lactate Ester-Based Formulations. The functionalized lactate esters were implemented as biobased monomers for DLP 3D printing (Figure 3).…”

Section: N-lactoyl Ethanolamine (N-lea)mentioning

confidence: 99%

“…Lactate esters are small biobased molecules that have mainly been used as green solvents, , with some further applications as additives in food and cosmetics. , They can be obtained by esterification of lactic acid, which is industrially sourced by fermenting carbohydrates with the desired alcohol. , Recently, their scope has been expanded to applications in polymer chemistry. − However, to the best of our knowledge, their application as monomers for 3D printing has not yet been reported.…”

Section: Introductionmentioning

confidence: 99%

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Designing Sustainable Polymers: Lactate Esters for 3D Printing and Upcycling

Klee,

Vazquez-Martel,

Florido Martins

et al. 2023

ACS Appl. Polym. Mater.

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The search for sustainable polymer systems is key to tackling the current climate crisis. However, the use of biobased polymers does not suffice to achieve this goal. Additionally, chemical approaches enabling the recycling or upcycling of polymer materials need to be explored. Herein, we exploit lactate esters with different substituents as readily available biobased molecules for the synthesis of printable monomers. The synthesis of these lactate ester-based monomers follows green chemistry principles by establishing a solvent-free, one-pot approach, relying on a reusable catalyst, and achieving high conversions (84−100%) under mild conditions. Further, these monomers are utilized in 3D printable ink formulations for digital light processing (DLP) for the first time in combination with a recycled crosslinker. The resulting 3D printed structures display complex geometries with high resolution. A key attribute of the presented system is that the 3D printed polymer material can be upcycled via aminolysis affording a precursor of the crosslinker, which is in turn incorporated into further ink formulations, introducing a material circularity into the system. These results demonstrate a strategic combination of a biobased monomer and chemical upcycling with sustainable 3D printing techniques.

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Section: Resultssupporting

confidence: 46%

Section: N-lactoyl Ethanolamine (N-lea)mentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Designing Sustainable Polymers: Lactate Esters for 3D Printing and Upcycling

Klee,

Vazquez-Martel,

Florido Martins

et al. 2023

ACS Appl. Polym. Mater.

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Poly(lactide) Upcycling Approach through Transesterification for Stereolithography 3D Printing

Figalla,

Jašek,

Fučík

et al. 2024

Biomacromolecules

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The legislature determines the recycled and waste contents in fabrication processes to ensure more sustainable production. PLA’s mechanical recycling and reuse are limited due to the performance decrease caused by thermal or hydrolytic instability. Our concept introduces an upcycling route involving PLA depolymerization using propylene glycol as a reactant, followed by the methacrylation, assuring the liquid systems’ curability provided by radical polymerization. PLA-containing curable systems were studied from a rheological and thermomechanical viewpoint. The viscosity levels varied from 33 to 3911 mPa·s at 30 °C, giving a wide capability potential. The best system reached 2240 MPa storage modulus, 164.1 °C glass-transition temperature, and 145.6 °C heat-resistant index, competitive values to commercial systems. The printability was verified for all of the systems. Eventually, our concept led to SLA resin production containing PLA waste content up to 51 wt %.

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Photocurable Oil-Based Thermosets Containing Modifiers from Renewable Sources for Coating Applications

Jašek,

Fučík,

Bartoš

et al. 2024

ACS Polym. Au

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Coating materials involving nature-inspired compounds or renewable sources have recently attracted vast attention. This article presents the synthesis of modified rapeseed oil (MRO) as a precursor possessing high biobased carbon content suitable for cured thermosets formation. Two reactive diluents based on renewable sources, methacrylated methyl 3hydroxybutyrate (M3HBMMA) and ethyl 3-hydroxybutyrate (E3HBMMA), were successfully synthesized. Lastly, isosorbide monomethacrylate (MISD) was suggested and produced as a polarity modifier miscible with modified curable oil systems capable of increasing the thermoset surface energy. All synthesized compounds were structurally analyzed via NMR, ESI-MS, and FTIR. The characterized reactive substances were coated on paper, stainless steel, and beech wood to investigate their suitability for forming thin layers. The paper dip coating verified the reactive diluting properties of M3HBMMA, resulting in the average formed coating deviation decrease (87.5% for undiluted MRO and 28.0% for 50 wt % M3HBMMA containing MRO). Also, the additional cured thermoset weight decreased from 350 to 69 wt % for the same systems. The standardized bend test applied on the coated stainless steel specimens revealed the thermoset's flexibility and adhesion increase from a 12 ± 2°bending angle of 100% pure MRO to a 121 ± 2°bending angle measured for 40 wt % E3HBMMA containing the MRObased thermoset. The coated beech wood samples underwent the standardized cross-hatch test investigating the substrate's coating quality. The 100% MRO reached a level 1 rating (second worst), while the system with 40 wt % of MISD obtained a level 5 rating (the best).

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Synthesis of Bio-Based Thermoset Mixture Composed of Methacrylated Rapeseed Oil and Methacrylated Methyl Lactate: One-Pot Synthesis Using Formed Methacrylic Acid as a Continual Reactant

Cited by 4 publications

References 31 publications

Designing Sustainable Polymers: Lactate Esters for 3D Printing and Upcycling

Designing Sustainable Polymers: Lactate Esters for 3D Printing and Upcycling

Poly(lactide) Upcycling Approach through Transesterification for Stereolithography 3D Printing

Photocurable Oil-Based Thermosets Containing Modifiers from Renewable Sources for Coating Applications

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