, for Fuels and Chemicals. ABAB Symposium (Part A: Enzyme Engineering and 652
, Biotechnology, pp.653-615
Effect of 656 heat treatment on extracellular enzymatic activities involved in beech, p.657, 2009. ,
, Wood Sci Technol, vol.43, issue.3-4, pp.331-341
, , p.661
Digestive enzymes from 662 workers and soldiers of termite Nasutitermes corniger, Comp Biochem Phys B, vol.176, pp.1-8, 2014. ,
,
Compositions of compounds 666 extracted from thermo-treated wood using solvents of different polarities, vol.10, pp.824-667, 2017. ,
Chemical modification of wood by acetylation or furfurylation: A 670 review of the present scaled-up technologies, BioResources, vol.12, issue.2, pp.4478-4489, 2017. ,
The water absorption of 675 sapwood and heartwood of Scots pine and Norway spruce heat-treated at 170 °C, 190 °C, 676 210 °C and 230 °C, Holz Roh Werkst, vol.64, issue.3, pp.192-197, 2005. ,
Effect of high temperature 680 treatment on wood durability against the Brown-rot fungus, Fomitopsis palustris, and the 681 termite, Coptotermes formosanus, Proceedings of 8 th International IUFRO Wood Drying 682 Conference, pp.284-287, 2003. ,
Enhanced transformation 685 of malachite green by laccase of Ganoderma lucidum in the presence of natural phenolic 686 compounds, App Microbiol Biot, vol.82, issue.2, pp.341-350, 2009. ,
Investigation of chemical changes in the 689 structure of thermally modified wood, Maderas-Cienc Tecnol, vol.12, issue.2, pp.69-78, 2010. ,
,
,
Evolution of extractive 710 composition during thermal treatment of jack pine, J Wood Chem Technol, vol.29, issue.3, pp.251-264, 2009. ,
,
Factors influencing enzyme activity, Enzyme kinetics: catalysis and 714 control: a reference of theory and best-practice methods, p.715, 2010. ,
,
Inhibition of lignin 718 -derived phenolic compounds to cellulose, Biotechnol Biofuels, vol.9, pp.70-80, 2016. ,
,
,
Polyphenolic compounds of Mediterranean Lamiaceae 723 and investigation of orientational effects on Acanthoscelides obtectus (Say), J Stored Prod, vol.724, 2003. ,
, Res, vol.40, issue.4, pp.31-37
Modification of mass transfer properties in poplar 727 wood (P. robusta) by thermal treatment at high temperature, Holz Roh Werkst, vol.62, issue.2, pp.113-728, 2004. ,
Cell wall 731 chemistry, vol.3, p.732, 2005. ,
,
, , vol.735
, Evaluation of Antibacterial, p.736, 2014.
, Antioxidant Activities of Safflower Natural Dyes during Flowering, BioMed Res Int, vol.762397, p.10
Wood modification technologies -a review, 752 iForest, vol.10, pp.895-908, 2017. ,
JMP 10.0.2 program, 2012. ,
A brief review of the past, present and 757 future of wood preservation, Pest Manag Sci, vol.63, issue.8, pp.784-792, 2007. ,
Comparative biological resistance of 760 differently thermal modified wood species against decay fungi, p.761, 2015. ,
, Hylotrupes bajulus, vol.17, pp.559-570
, , p.765
Physical properties and termite durability of maritime pine Pinus pinaster Ait., heat-766 treated under vacuum pressure, Wood Sci Technol, vol.46, issue.1, pp.487-501, 2012. ,
,
Biological control of wood decay 770 against fungal infection, J Environ Manage, vol.92, issue.7, pp.1681-1689, 2011. ,
,
Chemical changes in hydrothermal treated wood: FTIR 774 analysis of combined hydrothermal and dry heat treated wood, Holz Roh Werkst, vol.63, issue.2, pp.102-775, 2005. ,
, , 2001.
, Retification of maritime pine: lignin structure and wood properties
, Arbolor. Quatrième journée Forêt-Bois, vol.2, p.780
Association des sciences et technologies du bois, p.176 ,
effect of ph on chemical components and 783 mechanical properties of thermally modified wood, Wood Fiber Sci, vol.44, issue.1, pp.46-53, 2016. ,
Effect of Vacuum Heat 787 Treatment on the Chemical Composition of Larch Wood, BioResources, vol.11, issue.3, pp.5743-5750, 2016. ,