Journal
HOLZFORSCHUNG
Volume 62, Issue 1, Pages 50-56Publisher
WALTER DE GRUYTER & CO
DOI: 10.1515/HF.2008.007
Keywords
alpha-ether; beta-ether; bond dissociation energy (BDE); cleavage mechanism; dinner; Hammett's substituent constant; heterolytic; homolytic; lignin; pyrolysis; substituent effect; trimer
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Pyrolytic cleavage mechanisms of lignin-ether linkages were studied with some dinners and trimers which have various p-substituted C-alpha-phenoxy groups (-H, -OCH3, -Cl or -COCH3). Pyrolysis of these model compounds provides phenols and isoeugenol type products. To determine whether the reactions mechanisms are heterolytic or homolytic, the reactivities were compared based on Hammett's substituent constant (sigma(p)) and the ABIDE parameter, namely the bond dissociation energy (BIDE) reduction. The alpha-ether-linkages in phenolic forms are cleaved in a heterolytic mechanism, while in non-phenolic forms the a-ether linkages are cleaved homolytically. Cleavage of these a-ether linkages is the rate-determining step for the scission of the C-beta-O bond in trimers. The P-ether-linkages in the non-phenolic trimers are cleaved through the P-scission type reaction from the benzyl radical intermediates. On the other hand, quinone methide formation through heterolytic cleavage of the a-ether linkages is the key step for following homolysis of the C-beta-O bonds in the phenolic trimers. Electron attracting character of the quinone methide structure reduces the BIDE of the C-beta-O bond.
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