Gas Chromatographic Analysis of Lignin Oxidation Products. The Diphenyl Ether Linkage in Lignin.

  title={Gas Chromatographic Analysis of Lignin Oxidation Products. The Diphenyl Ether Linkage in Lignin.},
  author={Sam Larsson and Gerhard E. Miksche and Kasper Lund and Robert D. H. Murray and Gunter Hagen},
  journal={Acta Chemica Scandinavica},
About Making Lignin Great Again—Some Lessons From the Past
The restoration of molecular character resembling that in native plants is illustrated in this review via the demonstrated (and in part commercially-implemented) use of pulp lignins in bio-degradable (or compostable) polymeric materials.
The origin and evolution of lignin biosynthesis.
A number of aspects regarding the origin and evolution of lignin biosynthesis during land plant evolution are discussed, including the establishment of its monomer biosynthetic scaffold, potential precursors to the lIGNin polymer, as well as the emergence of the polymerization machinery and regulatory system.
Evaluation of Reaction Efficiency of Thioacidolysis for Cleavage of β-O-4 Interunitary Linkages by Using β-O-4 Type Artificial Lignin Polymer
Abstract Dimeric lignin model compounds with non-phenolic and phenolic moieties and a β -O-4 type artificial lignin polymer were subjected to thioacidolysis to evaluate the reaction efficiency of
Lignin Structure, Properties, and Applications
Polymeric features of lignin and its potential as a bio-resource are reviewed, focusing on its characteristic structure and properties. Lignin is a random copolymer consisting of phenylpropane units
Lignin chemistry—past, present and future
  • E. Adler
  • Materials Science
    Wood Science and Technology
  • 2004
SummarySome pertinent results and views from the earlier history of lignin chemistry, pointing to the importance of the arylpropane skeleton, are outlined. Later development, beginning with the
The structure of lignins in pulps
SummaryFive potential lignin depolymerization techniques were evaluated with regard to their analytical value in combination with oxidation by permanganate and hydrogen peroxide. The methods included
The structure of lignins in pulps
SummarySeveral important parameters pertaining to the recovery, separation, quantitative identification, and yield correction of permanganate oxidation products from lignins were critically