S. Zhao and M. M. Abu-omar, Synthesis of Renewable Thermoset Polymers through Successive Lignin Modification Using Lignin-Derived Phenols

A. E. Rodrigues, P. C. Pinto, M. F. Barreiro, C. A. Esteves-da-costa, M. I. Ferreira-da-mota et al., An Integrated Approach for Added-Value Products from Lignocellulosic Biorefineries (Vanillin, Syringaldehyde, Polyphenols and Polyurethane) || Polyurethanes from Recovered and Depolymerized Lignins, pp.85-117

K. H. Nicastro, C. J. Kloxin, and T. H. Epps, Potential Lignin-Derived Alternatives to Bisphenol A in Diamine-Hardened Epoxy Resins, ACS Sustainable Chemistry & Engineering, 2018.

Y. Zhang, J. Wu, H. Li, T. Yuan, Y. Wang et al., Heat Treatment of Industrial Alkaline Lignin and its Potential Application as an Adhesive for Green Wood-Lignin Composites, ACS Sustainable Chemistry & Engineering, vol.2017, issue.8, pp.7269-7277

I. Dabbabi, O. Gimello, E. Elaloui, F. Quignard, and N. Brosse, Organosolv Lignin

. Adhesive, Influence of the Lignin Extraction Conditions on the Adhesive Performance, Polymers, vol.8, p.340, 2016.

N. E. Mansouri, A. Pizzi, and J. Salvadó, Lignin-based wood panel adhesives without formaldehyde, vol.65, pp.65-70

A. Tejado, C. Peña, J. Labidi, J. M. Echeverria, and I. Mondragon, Physico-chemical characterization of lignins from different sources for use in phenol-formaldehyde resin synthesis

, Bioresource Technol, vol.98, issue.8, pp.1655-1663, 2007.

H. K. Ono and K. Sudo, Wood Adhesives from Phenolysis Lignin, 1989.

C. A. Costa, P. C. Pinto, and A. E. Rodrigues, Radar Tool for Lignin Classification on the Perspective of Its Valorization, Ind Eng Chem Res, p.150731152018008

P. Alvira, E. Tomas-pejo, M. Ballesteros, and M. Negro, Pretreatment technologies for an efficient bioethanol production process based on enzymatic hydrolysis: A review, Bioresource Technol, vol.101, pp.4851-61, 2010.

A. T. Hendriks and G. Zeeman, Pretreatments to enhance the digestibility of lignocellulosic biomass, Bioresource Technol, vol.100, issue.1, pp.10-18, 2009.

S. Sharma, R. Kumar, R. Gaur, R. Agrawal, R. P. Gupta et al., Pilot scale study on steam explosion and mass balance for higher sugar recovery from rice straw, Bioresource Technol, vol.175, pp.350-357, 2015.

J. Li, G. R. Gellerstedt, and K. Toven, Steam explosion lignins; their extraction, structure and potential as feedstock for biodiesel and chemicals, vol.100, pp.2556-2561

S. N. Obame, I. Ziegler-devin, R. Safou-tchima, and N. Brosse, Homolytic and Heterolytic Cleavage of ?-Ether Linkages in Hardwood Lignin by Steam Explosion, J Agr Food Chem, vol.2019, issue.21, pp.5989-5996
URL : https://hal.archives-ouvertes.fr/hal-02125895

T. Auxenfans, D. Crônier, B. Chabbert, and G. Paës, Understanding the structural and chemical changes of plant biomass following steam explosion pretreatment, Biotechnology for Biofuels, p.10, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01602522

R. Martín-sampedro, E. Capanema, I. Hoeger, J. Villar, and O. Rojas, Lignin Changes after Steam Explosion and Laccase-Mediator Treatment of Eucalyptus Wood Chips, J Agr Food Chem, vol.59, pp.8761-8770, 2011.

B. S. Donohoe, S. R. Decker, M. P. Tucker, M. E. Himmel, and T. B. Vinzant, Visualizing lignin coalescence and migration through maize cell walls following thermochemical pretreatment

, Biotechnology & Bioengineering, vol.101, issue.5, pp.913-925

L. A. Donaldson, W. Kky, and K. L. Mackie, Ultrastructure of steam-exploded wood, vol.22, pp.103-114, 1988.

J. Li, G. Henriksson, and G. Gellerstedt, Lignin depolymerization/repolymerization and its critical role for delignification of aspen wood by steam explosion, Bioresource Technol, vol.98, issue.16, pp.3061-3068, 2007.

B. Ko?íková, J. Mlynár, L. Zákutná, D. Joniak, and M. Micko, The Relationship between Ultrastructure and Lignin Extractability of Steamed Hardwoods, In Holzforschung -International Journal of the Biology, vol.44, p.249, 1990.

S. Sun, X. Cao, F. Xu, R. Sun, and G. L. Jones, Structural Features and Antioxidant Activities of Lignins from Steam-Exploded Bamboo (Phyllostachys pubescens), J Agr Food Chem, vol.62, issue.25, pp.5939-5947, 2014.

L. Matsakas, C. Nitsos, V. Raghavendran, O. Yakimenko, G. Persson et al., A novel hybrid organosolv: steam explosion method for the efficient fractionation and pretreatment of birch biomass, Biotechnology for Biofuels, vol.11, issue.1, p.160, 2018.

R. E. Hage, N. Brosse, P. Sannigrahi, and A. Ragauskas, Effects of process severity on the chemical structure of Miscanthus ethanol organosolv lignin, vol.95, pp.997-1003

G. Wang and H. Chen, Enhanced lignin extraction process from steam exploded corn stalk

, Separation & Purification Technology, vol.157, pp.93-101

D. Issam, G. Olinda, E. Elimame, Q. Fran?oise, and B. Nicolas, Organosolv Lignin

. Adhesive, Influence of the Lignin Extraction Conditions on the Adhesive Performance, Polymers, vol.8, issue.9, p.340

Z. A. Nagieb, Effect of temperature on the soda and kraft cooking of corn stalks, J Appl Polym Sci, vol.31, issue.6, pp.1609-1617, 1986.

H. Li, S. Sun, C. Wang, and R. Sun, Structural and dynamic changes of lignin in Eucalyptus cell walls during successive alkaline ethanol treatments, Industrial Crops & Products, vol.74, pp.200-208

A. Granata and D. S. Argyropoulos, 2-dioxaphospholane, a Reagent for the Accurate Determination of the Uncondensed and Condensed Phenolic Moieties in Lignins, J Agr Food Chem, vol.2, issue.4, pp.1538-1544, 1995.

Y. Kang, P. Bansal, M. Realff, and A. Bommarius, SO2-catalyzed steam explosion: The effects of different severity on digestibility, accessibility, and crystallinity of lignocellulosic biomass, Biotechnol Progr, p.29, 2013.

L. Kumar, R. Chandra, P. Chung, and J. Saddler, Can the same steam pretreatment conditions be used for most softwoods to achieve good, enzymatic hydrolysis and sugar yields?, Bioresource Technol, vol.101, pp.7827-7833, 2010.

K. Dimos, T. Paschos, A. Louloudi, K. Kalogiannis, A. Lappas et al., Effect of Various Pretreatment Methods on Bioethanol Production from Cotton Stalks, vol.5, p.5, 2019.

W. J. Huijgen, G. Telysheva, A. Arshanitsa, R. J. Gosselink, and P. J. De-wild, Characteristics of wheat straw lignins from ethanol-based organosolv treatment, vol.59, pp.85-95, 2014.

S. Constant, H. Wienk, A. Frissen, P. De-peinder, R. Boelens et al., New insights into the structure and composition of technical lignins: A comparative characterisation study, Green Chem, p.18, 2016.

D. Fengel, Chemical Studies on the Wood of Quebracho colorado

, In Holzforschung -International Journal of the Biology, vol.45, p.395, 1991.

C. Huang, J. He, L. Du, D. Min, and Q. Yong, Structural Characterization of the Lignins from the Green and Yellow Bamboo of Bamboo Culm (Phyllostachys pubescens), J Wood Chem Technol, vol.36, issue.3, pp.157-172, 2016.

G. Haiwei, D. M. Miles-barrett, A. R. Neal, T. Zhang, C. Li et al., Unravelling the Enigma of LigninOX: Can the Oxidation of Lignin be Controlled? Chemical Science

Y. Guo, J. Zhou, J. Wen, G. Sun, and Y. Sun, Structural transformations of triploid of Populus tomentosa Carr. lignin during auto-catalyzed ethanol organosolv pretreatment, vol.76, pp.522-529, 2015.

X. Wang, Y. Guo, J. Zhou, and G. Sun, Structural changes of poplar wood lignin after supercritical pretreatment using carbon dioxide and ethanol-water as co-solvents, Rsc Advances, vol.7, issue.14, pp.8314-8322

M. Chadni, N. Grimi, O. Bals, I. Ziegler-devin, and N. Brosse, Steam explosion process for the selective extraction of hemicelluloses polymers from spruce sawdust, vol.141, p.111757, 2019.
URL : https://hal.archives-ouvertes.fr/hal-02289732

C. Moine, P. Krausz, V. Chaleix, O. Sainte-catherine, and V. Gloaguen, Structural Characterization and Cytotoxic Properties of a 4-O -Methylglucuronoxylan from Castanea sativa, J Nat Prod, vol.70, issue.1, pp.60-66, 2007.
URL : https://hal.archives-ouvertes.fr/hal-00416637

A. Marques, J. Rencoret, A. Gutiérrez, J. Del-río, and H. Pereira, Ferulates and lignin structural composition in cork, p.0, 2015.

K. Wörmeyer, T. Ingram, B. Saake, G. Brunner, and I. Smirnova, Comparison of different pretreatment methods for lignocellulosic materials. Part II: Influence of pretreatment on the properties of rye straw lignin, Bioresource Technol, vol.102, issue.5, pp.4157-4164, 2011.

R. El-hage, N. Brosse, P. Sannigrahi, and A. Ragauskas, Effect of the Severity of the Ethanol Organosolv Process on the Chemical Structure of Ethanol Organosolv Miscanthus Lignins, Polymer Degradation and Stability, vol.95, pp.997-1003, 2010.

M. H. Hussin, A. A. Rahim, M. N. Mohamad-ibrahim, and N. Brosse, Physicochemical characterization of alkaline and ethanol organosolv lignins from oil palm (Elaeis guineensis) fronds as phenol substitutes for green material applications, vol.49, pp.23-32, 2013.
URL : https://hal.archives-ouvertes.fr/hal-01593766

H. R. Mansouri, P. Navarrete, A. Pizzi, S. Tapin-lingua, B. Benjelloun-mlayah et al., Synthetic-resin-free wood panel adhesives from mixed low molecular mass lignin and tannin, vol.69, pp.221-229, 2011.
URL : https://hal.archives-ouvertes.fr/hal-00594484

G. Wang and H. Chen, Phenolic foam prepared by lignin from a steam-explosion derived biorefinery of corn stalk, Chinese Journal of Biotechnology, vol.30, pp.901-910, 2014.