Reactivity of lignin subunits: the influence of dehydrogenation and formation of dimeric structures

Lignin is one of the most abundant natural materials around the world, accounting for about a quarter of the woody tissue. In general, it is well known that these highly branched aromatic bio-polymers are formed from the polymerization of p -coumaryl, coniferyl, and sinapyl alcohols; however, the co...

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Bibliographic Details
Published in:Journal of molecular modeling 2019-08, Vol.25 (8), p.228-228, Article 228
Main Authors: Maia, Rosangela A., Ventorim, Gustavo, Batagin-Neto, Augusto
Format: Article
Language:English
Subjects:
Alcohols
Biopolymers
Characterization and Evaluation of Materials
Chemistry
Chemistry and Materials Science
Computer Appl. in Life Sciences
Computer Applications in Chemistry
Dehydrogenation
Dimerization
Electronic structure
Lignin
Molecular Medicine
Original Paper
Reactivity
Softness
Theoretical and Computational Chemistry
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Summary:Lignin is one of the most abundant natural materials around the world, accounting for about a quarter of the woody tissue. In general, it is well known that these highly branched aromatic bio-polymers are formed from the polymerization of p -coumaryl, coniferyl, and sinapyl alcohols; however, the connection between these structures are still not known in detail. In this work, we have employed electronic structure calculations to investigate local reactivities and details regarding the connectivity between the basic structures of lignin (unmodified mono and dilignols as well as dehydrogenated monolignols). Condensed-to-atoms Fukui indexes, local softness and hard and soft acids and bases principle were employed in the analyses. The results allow identifying reactive sites on the lignin subunits and access details on the synthesis and degradation of this bio-material. In particular, it is possible to identify a strong influence of the dehydrogenation and monomer dimerization on the monolignols reactivities, which activate the O–C4 and C5 positions. Graphical Abstract The local reactivities of lignin subunits were evaluated via DFT calculations.
ISSN:1610-2940
0948-5023
DOI:10.1007/s00894-019-4130-4