Full metadata record
DC Field | Value | Language |
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dc.contributor.author | Hua, Qi | - |
dc.contributor.author | Liu, Li-Yang | - |
dc.contributor.author | Cho, Mijung | - |
dc.contributor.author | Karaaslan, Muzaffer A. | - |
dc.contributor.author | Zhang, Huaiyu | - |
dc.contributor.author | Kim, Chang Soo | - |
dc.contributor.author | Renneckar, Scott | - |
dc.date.accessioned | 2024-01-19T10:04:03Z | - |
dc.date.available | 2024-01-19T10:04:03Z | - |
dc.date.created | 2023-03-02 | - |
dc.date.issued | 2023-02 | - |
dc.identifier.issn | 1525-7797 | - |
dc.identifier.uri | https://pubs.kist.re.kr/handle/201004/114029 | - |
dc.description.abstract | Introducing vinyl groups onto the backbone of technical lignin provides an opportunity to create highly reactive renewable polymers suitable for radical polymerization. In this work, the chemical modification of softwood kraft lignin was pursued with etherification, followed by direct esterification with acrylic acid (AA). In the first step, phenolic hydroxyl and carboxylic acid groups were derivatized into aliphatic hydroxyl groups using ethylene carbonate and an alkaline catalyst. The lignin was subsequently fractionated using a downward precipitation method to recover lignin of defined molar mass and solubility. After recovery, the resulting material was then esterified with AA, resulting in lignin with vinyl functional groups. The first step resulted in approximately 90% of phenolic hydroxyl groups being converted into aliphatic hydroxyls, while the downward fractionation resulted in three samples of lignin with defined molar masses. For the esterification reaction, the weight ratio of reagents, reaction temperature, and reaction time were evaluated as factors that would influence the modification efficacy.C- 13 NMR spectroscopy analysis of lignin samples before and after esterification showed that the optimized reaction conditions could reach approximately 40% substitution of aliphatic hydroxyl groups. Both steps only used lignin and the modifying reagent (no solvent), with the possibility of recovery and reuse of the reagent by dilution and distillation. An additional second esterification step of the resulting lignin sample with acetic acid or propionic acid converted 90% of remaining hydroxyl groups into short-chain carbon aliphatic esters, making a hydrophobic material suitable for further copolymerization with synthetic hydrophobic monomers. | - |
dc.language | English | - |
dc.publisher | American Chemical Society | - |
dc.title | Functional Lignin Building Blocks: Reactive Vinyl Esters with Acrylic Acid | - |
dc.type | Article | - |
dc.identifier.doi | 10.1021/acs.biomac.2c00806 | - |
dc.description.journalClass | 1 | - |
dc.identifier.bibliographicCitation | Biomacromolecules, v.24, no.2, pp.592 - 603 | - |
dc.citation.title | Biomacromolecules | - |
dc.citation.volume | 24 | - |
dc.citation.number | 2 | - |
dc.citation.startPage | 592 | - |
dc.citation.endPage | 603 | - |
dc.description.isOpenAccess | N | - |
dc.description.journalRegisteredClass | scie | - |
dc.description.journalRegisteredClass | scopus | - |
dc.identifier.wosid | 000927435000001 | - |
dc.identifier.scopusid | 2-s2.0-85147206465 | - |
dc.relation.journalWebOfScienceCategory | Biochemistry & Molecular Biology | - |
dc.relation.journalWebOfScienceCategory | Chemistry, Organic | - |
dc.relation.journalWebOfScienceCategory | Polymer Science | - |
dc.relation.journalResearchArea | Biochemistry & Molecular Biology | - |
dc.relation.journalResearchArea | Chemistry | - |
dc.relation.journalResearchArea | Polymer Science | - |
dc.type.docType | Article; Early Access | - |
dc.subject.keywordPlus | KRAFT LIGNIN | - |
dc.subject.keywordPlus | ORGANOSOLV LIGNIN | - |
dc.subject.keywordPlus | P-31 NMR | - |
dc.subject.keywordPlus | POLYMERIZATION | - |
dc.subject.keywordPlus | POLYMERS | - |
dc.subject.keywordPlus | MACROMONOMERS | - |
dc.subject.keywordPlus | POLYSTYRENE | - |
dc.subject.keywordPlus | SURFACTANTS | - |
dc.subject.keywordPlus | ALLYLATION | - |
dc.subject.keywordPlus | CARBONATE | - |
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