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Thermochemical Conversion of Biomass to Liquid Fuels and Chemicals, Chapter 9 Lignin Utilization . Gunnar Henriksson, Jiebing Li, Liming Zhang, Mikael E. Lindström
, 2010
, Pages 222-262
Lignin Valorization: Emerging Approaches, Chapter 15 Lignin Analytics . Heiko Lange, Paola Giannì, Claudia Crestini
, 2018
, Pages 413-476
Commercializing Biobased Products: Opportunities, Challenges, Benefits, and Risks, Chapter 7 Lignin as Feedstock for Fibers and Chemicals . Steven W. Peretti, Ryan Barton, Regis Teixeira Mendonca
, 2016
, Pages 132-165
Lignin Valorization: Emerging Approaches, Chapter 1 A Brief Introduction to Lignin Structure . Rui Katahira, Thomas J. Elder, Gregg T. Beckham
, 2018
, Pages 1-20
The Chemistry of Paper, The chemistry of lignin and its removal . J. C. Roberts
, 1996
, Pages 26-51
Lignin Valorization: Emerging Approaches, Chapter 10 Using Aerobic Pathways for Aromatic Compound Degradation to Engineer Lignin Metabolism . Sarah C. Seaton, Ellen L. Neidle
, 2018
, Pages 252-289
A Handbook of Applied Biopolymer Technology: Synthesis, Degradation and Applications, Chapter 2 Synthetic Green Polymers from Renewable Monomers . Naozumi Teramoto
, 2011
, Pages 22-78
Thermochemical Conversion of Biomass to Liquid Fuels and Chemicals, Chapter 1 The Rationale for Biofuels . Mark Crocker, Rodney Andrews
, 2010
, Pages 1-25
Metabolism of Nutrients by Gut Microbiota, CHAPTER 2 Metabolism of Dietary Carbohydrates by Intestinal Bacteria . EBRU Ece Gulsan, Farrhin Nowshad, Arul Jayaraman, Kyongbum Lee
, 2022
, Pages 18-47
Fast Pyrolysis of Biomass: Advances in Science and Technology, CHAPTER 3 Lignin Depolymerization/Deconstruction Reactions During Fast Pyrolysis . J. Y. Kim, J. W. Choi
, 2017
, Pages 37-56