Your search keyword '"Finnveden, Maja"' showing total 4 results

1. Itaconate based polyesters: Selectivity and performance of esterification catalysts.

Author

Brännström, Sara, Finnveden, Maja, Johansson, Mats, Martinelle, Mats, and Malmström, Eva

Subjects

*POLYESTERS, *ESTERIFICATION, *ITACONIC acid, *ISOMERIZATION, *CROSSLINKING site (Polymers), *REACTIVITY (Chemistry)

Abstract

The performance of different esterification catalysts was studied for the use in synthesis of renewable polyesters from dimethyl itaconate (DMI), dimethyl succinate (DMS) and 1,4-butanediol (BD). Itaconic acid and derivatives such as DMI are interesting monomers because of their multiple functionalities and previous work has shown great potential. However, the multiple functionalities also pose challenges to avoid side reactions such as thermally initiated, premature, radical crosslinking and/or isomerization of the 1,1-disubstituted unsaturation. Additionally, the two carboxylic acids have inherently different reactivity. One key factor to control reactions with IA is to understand the performance of different catalysts. In this study, six esterification catalysts were investigated; immobilized Candida antarctica lipase B (CalB), titanium(IV)butoxide (Ti(OBu) 4 ), p -toluenesulfonic acid ( p TSA), sulfuric acid (H 2 SO 4 ), 1,8-diazabicycloundec-7-ene (DBU), and 1,5,7-triazabicyclodec-5-ene (TBD). CalB and Ti(OBu) 4 were selected for further characterization with appreciable differences in catalytic activity and selectivity towards DMI. CalB was the most effective catalysts and was applied at 60 °C while Ti(OBu) 4 required 160 °C for a reasonable reaction rate. CalB was selective towards DMS and the non-conjugated side of DMI, resulting in polyesters with itaconate-residues mainly located at the chain ends, while Ti(OBu) 4 showed low selectivity, resulting in polyesters with more randomly incorporated itaconate units. Thermal analysis of the polyesters showed that the CalB-catalyzed polyesters were semi-crystalline, whereas the Ti(OBu) 4 -catalyzed polyesters were amorphous, affirming the difference in monomer sequence. The polyester resins were crosslinked by UV-initiated free radical polymerization and the material properties were evaluated and showed that the crosslinked materials had similar material properties. The films from the polyester resins catalyzed by CalB were furthermore completely free from discoloration whereas the film made from the polyester resins catalyzed with Ti(OBu) 4 had a yellow color, caused by the catalyst. Thus, it has been shown that CalB can be used to attain sustainable unsaturated polyesters resins for coating applications, exhibiting equally good properties as resins obtained from traditional metal-catalysis. [ABSTRACT FROM AUTHOR]

Published

2018

2. One-Component Thiol-Alkene Functional Oligoester Resins Utilizing Lipase Catalysis.

Author

Finnveden, Maja, Nameer, Samer, Johansson, Mats, and Martinelle, Mats

Subjects

*GUMS & resins, *ESTERS, *LIPASES, *CATALYSTS, *CHEMICAL synthesis

Abstract

Chemo-enzymatic methods are powerful tools for the synthesis of novel materials. By combining the flexibility of chemical synthesis and the high selectivity of enzymes, a variety of functional materials can be achieved. In the present study, a series of α,ω-thiol telechelic oligoesters with varying amount of internal alkenes are prepared using selective lipase catalysis and are subsequently cross-linked by thiol-ene chemistry yielding alkene functional networks. Due to the reactivity of thiols and alkenes almost all present thiol-ene systems consist of two components. This work demonstrates that selective lipase catalysis in combination with renewable monomers with internal alkenes is a promising system for achieving one-component thiol-alkene functional resins with good storage stability and a high degree of thiol end-groups. The developed chemo-enzymatic route yields polymer networks with tailored amount of alkene functionalities in the final thermoset, which facilitate further postmodification. [ABSTRACT FROM AUTHOR]

Published

2016

3. Lipase-Catalyzed Synthesis of Renewable Plant Oil-Based Polyamides.

Author

Finnveden, Maja, Hendil-Forssell, Peter, Claudino, Mauro, Johansson, Mats, and Martinelle, Mats

Subjects

*METHYL formate, *LIPASES, *MONOMERS, *POLYAMIDES, *CATALYSTS, *FATTY acid methyl esters, *ENZYMES

Abstract

Enzyme catalyzed synthesis of renewable polyamides was investigated using Candida antarctica lipase B. A fatty acid-derived AB-type functional monomer, having one amine and one methyl ester functionality, was homopolymerized at 80 and 140 °C. Additionally, the organobase 1,5,7-triazabicyclo[4.4.0]dec-5-ene (TBD) was used as a catalyst. The results from the two catalysts were comparable. However, the amount of lipase added was 1.2 × 103 times lower, showing that the lipase was a more efficient catalyst for this system as compared to TBD. Moreover, the AB-type monomer was copolymerized with 1,12-diaminododecane to synthesize oligoamides of two different lengths. [ABSTRACT FROM AUTHOR]

Published

2019

4. Tailoring Thermo‐Mechanical Properties of Cationically UV‐Cured Systems by a Rational Design of Vinyl Ether Ester Oligomers using Enzyme Catalysis.

Author

Brännström, Sara, Finnveden, Maja, Razza, Nicolò, Martinelle, Mats, Malmström, Eva, Sangermano, Marco, and Johansson, Mats

Subjects

*VINYL ethers, *OLIGOMERS, *CATALYSIS, *ADDITION polymerization, *CROSSLINKING (Polymerization)

Abstract

There is a demand for new sustainable polymeric materials. Vinyl ethers are, in this context, attractive oligomers since they polymerize fast, are non‐toxic, and can be polymerized under ambient conditions. The availability of vinyl ether oligomers is, however, currently limited due to difficulties in synthesizing them without using tedious synthesis routes. This work presents the synthesis of a series of vinyl ether ester oligomers using enzyme catalysis under solvent‐free conditions and the subsequent photoinduced cationic polymerization to form polymer thermosets with Tgs ranging from −10 to 100 °C. The whole process is very efficient as the synthesis takes less than 1 h with no need for purification and the crosslinking is complete within 2 min. This work presents an efficient and benign enzymatic synthesis of vinyl ether ester oligomers for solvent‐free resin applications. The synthesis is complete in less than 1 h and the oligomers are thereafter crosslinked during 2 min with UV‐initiated cationic polymerization, which yielded transparent free‐standing films that have a wide range of Tgs from −10 to 100 °C depending on composition. [ABSTRACT FROM AUTHOR]

Published

2018