Temas
Cantidad
2,3-butanediol; Klebsiella pneumoniae; Hydrolyzate; Sugarcane bagasse1 : 1-hydroxy ethylidene-1,1-diphosphonic acid; OPQP bleaching sequence; Box-Behnken design; Response surface methodology1 : Melamine-urea-formaldehyde resin; Melamine addition stage; Performance; Curing behavior; Activation energy1 : hornbeam wood, pre-treatment, white-rot fungi, sodium hydroxide, hydrogen peroxide, facial swelling, swelling kinetics, permeability, diffusion1 : pre-treatment, white-rot fungi, alkali, peroxides, deacetylation, wood constituents, NB oxidation, kraft pulps, yield, residual lignin, brightness.1 A. pullulans; Culture medium; Ferulic oligosaccharides (FOs); Wheat bran; Xylanase1 Absorbency; Cellulosic materials; Fluff pulp; Superabsorbents; Hydrogels; Carboxymethylcellulose (CMC); Disposable; Rate of absorption; Life cycle analysis1 Accelerated weathering; Wood Preservative; Coating; Color change1 Acetylation; Thermal modification; Polylactate; Moisture; Biological durability; Wood plastic composite1 Acid saccharification; Cooking; Lignin; Sugar1 Activated carbon; Coconut shells; Phosphoric acid; Pore structure; Microstructure1 Adsorbent; Magnesium silicate; Wheat husk; Wheat husk ash1 Adsorption Isotherms; Lignin oxidation; Bagasse lignin; Kraft lignin; Lignin characterization1 Adsorption, polymer, cellulose nanofibril, MFC, QCM-D, SPR, CLSM1 Agarose film; Eutectic-based ionic liquid; Plasticizer; Choline chloride/urea1 Alkali treatment; Cellulose; Chemical content; Degradation; Hemicellulose; Lignin; Rice husks1 Alkaline precipitation; Magnesium lignosulfonate; Ion chromatography; Thermogravimetry1 Alkoxysilane; Sol-gel materials; Coniophora puteana; Trametes versicolor; Poria placenta; Wood modification1 Aluminum oxide nanoparticles; Urea formaldehyde resin; Crosslink density; Formaldehyde emission; Medium density fiberboard; Mechanical properties1 Amino-silicone, Brown rot, Macro-emulsion, Micro-emulsion, Quat-silicone, Soft rot, White rot1 Anaerobically digested bovine biofiber; Fiberboard; Mechanical properties1 Anatomy, Cell wall structure, Chemical composition, Lignin distribution, Plant Fibers1 Anionic trash catcher (ATC); Dry strength agent; Polyamine; Dissolved and colloidal substances (DCS); Polyelectrolyte complexes1 Anti-scaling agents, Pinus taeda, Kraft cooking, Calcium - Phosphonates1 Appropriate technology, Renewable resources, Sustainability, Industrialization1 Aromatic acids, calculation, lignin, oxidation, permanganate, phenol1 Artificial weathering; Color change; Compression strength; FTIR-ATR spectroscopy; Surface roughness; Vegetable oil1 Arundo donax L.; Giant reed; Non-wood fibers; Organosolv pulping; Totally chlorine free (TCF) bleaching; Biobleaching; Bleach boosting1 Aspergillus niger; Cellulase; Beatability; Action mechanism; Bleached simao pine kraft pulp1 Atomic force microscope; Precipitated calcium carbonate; Nanoclay; Strength; Optical properties1 Bacillus licheniformis; Glycocalyx; Immunomodulatory; Levan; Multi-enzyme complex; Polysaccharide; Xylanases1 Bacteria; Field test; Light microscopy; MOE; Soft rot; Thermally modified wood1 Bagasse; Bamboo; Natural fiber; Composites; Processing conditions; Flexural modulus; Mechanical properties1 Bagasse; CMP; Kraft; Newsprint; Bleached1 Bamboo powder-polypropylene foamed composite; MAPP; coupling agent; Physico-mechanical properties; Rheological behavior1 Bamboo; Biaxial compression; Mechanical properties; Ultra-low temperature; Strain field1 Bamboo; Bioethanol; Two-stage pretreatment; Enzymatic hydrolysis; Fermentation1 Bamboo; Combined pretreatment; Steam explosion; Alkaline peroxide; Enzymatic hydrolysis1 Bamboo; Dendrocalamus sinicus; Hemicelluloses; Isolation; Characterization1 Bamboo; Mechanical properties; Moisture dependence; Specific density1 Bamboo; Thermal expansion; Recycled plastic; Composites1 Bamboo; Thermal modification; Dendrocalamus barbatus; Dendrocalamus asper; Changes in physical properties; Color difference; Mass loss; Equilibrium moisture content1 Bambusa rigida; α-Cellulose; Cellulose nanofiber; Thermal properties; X-ray diffraction (XRD)1 Bark, sorbent, adsorption, metals, pine, nickel, cadmium1 Basidiomycetes; Biological pretreatment; Cellulose; Escherichia coli; Fermentation1 Betung bamboo; Sound absorption; Transmission loss; Particleboard1 Bio-energy; High strength organic wastewater; Optimum condition for anaerobic treatment; F/M ratio1 Bio-oil; Upgrading; Ketones; Co-cracking; Gasoline1 Bio-pretreatment; Biomass; White-rot fungi; Medium-temperature pyrolysis; Py-GC/MS; Solid state 13C CP/MAS NMR1 Biochar (BC); Heavy metals; Rice paddy; Soil amendment; Soil microorganisms; Soil enzyme1 Biochar; Cd; Wheat; Heavy metal contamination; Soil amendment1 Biochar; Gasification; Pyrolysis; Torrefaction; Temperature programmed oxidation1 Biochar; Heavy metal; Contaminated soil; Soil amendment; Wheat1 Biodegradation, Base-board, Barrier coating, Recycling, Soil burial, Inoculum, Microorganism, Weight loss, Tensile strength.1 Biodiesel, Diesel fuels, Tall oil, Kraft pulping, Transesterification, Esterification, Catalysis, Biorefinery, Extractives1 Bioethanol; Lignocellulose; Pretreatment; Reducing sugar; Water hyacinth1 Biofuel; Thermochemical; Gasification; Ethanol; LCA; GHG; Cellulose1 Biological control agent; Cellulase activity; Colletotrichum gloeosporioides; Mango industrial wastes; Proximal analyses; Scanning electron microscopy; Trichoderma1 Biomass conversion; Cellulose; Pretreatment; Cellulase; Alkali-cellulase; Alkcell; Bioethanol1 Biomass conversion; On-farm bioconversion; Continuous Alkcell process; Alkali pretreatment; Cellulase hydrolysis; Glucose transportation; Glucose fermentation1 Biomass, Australian Resources, Utilization Technologies1 Biomass; Adsorption; Hemicellulose; Cellulose; Lignin; Carbon1 Biomass; Carbon sulfonic acid; Hydrolysis of lignocellulose; Reducing sugars; Microwave irradiation1 Biomass; Metal-loaded ZSM-5; Catalytic pyrolysis; Fluidized bed1 Biotechnology; Minerals; Nanoscience; Particleboard; Wollastonite; Wood-composite1 Birch veneer; Electroless Ni-Cu-P plating; Electromagnetic shielding effectiveness; Anti-corrosion1 Black pine; Kraft; OCC; Scots pine; Strength properties; Virgin pulp1 Bleached Eucalyptus kraft pulp; Poly-epichlorohydrin-dimethylamine; Adsorption; Acid Scarlet G1 Bleached Eucalyptus pulp; Nano- or microfibrillated cellulose; Beating; Physical and mechanical properties1 Braille paper; Cellulose acetate impregnation; Recycled paper; Response surface methodology1 Bridge decks; Composite bridges; Timber-concrete composite structures; Connection systems; Timber construction1 Carboxymethyl cellulose (CMC), Endoglucanase activity, Cellulase, Viscosity, Rotational viscometer, Thermal denaturation, Polymeric effects1 Carboxymethyl larch tannin; Color removal; Adsorption; Acid dye; Charge neutralization1 Cationic demand; Charge demand; Dissolved and colloidal substances (DCS); Interferences to polymeric retention aids; Polyelectrolyte complexes; Fines; Retention; Drainage1 Cationic starch; Carboxymethyl cellulose; Filler modification; Papermaking1 Cellulase; Cellulose; Conversion; Hydrolysis1 Cellulase; Multienzyme complex; Plant biomass; Polysaccharide binding; Tepidimicrobium xylanilyticum; Xylanase1 Cellulases; Exo-gluconase; Endo-gluconase; Bagasse; Yeast1 Cellulose nanofibers, Nanostructure, Microfibrils, Biopolymers, Inverse gas chromatography1 Cellulose, Cellulose microfibrils, Fungal / Enzyme pretreatment, Cellulose microfibril isolation, Hydrogen bonds1 Cellulose-binding domain; Retention; Papermaking additive; Interfering substances; Atomic force microscopy; Force curve measurement1 Cellulose; Lignocellulose; Dispersions; Suspensions; Coagulation; Flocculation; Colloidal Stability; Zeta potential; Polyelectrolytes; Electrolyte concentration; Dispersions; Lignin; Hemicellulose; Extractives1 Cellulose; Nanostructure; Nanofibrils; Nanoparticles; Properties; Applications1 Chemimechanical pulp; Discoloration; Light-induced; Lignin; Mechanical pulp; Stabilization; Yellowing1 Chimeric enzyme; Neocallimastix patriciarum; Xylanase; Acetylxylan esterase1 Chinese fir wood; Thermo-mechanical densification; Heat treatment; Set-recovery; Taguchi design of experiments; ANOVA1 Chinese fir; Thermal decomposition; TG; XRD; TG-FTIR1 Chitin nanofiber; Polymethylmethacrylate(PMMA); Optically transparent; Biocomposite; Mechanical properties; High-performance1 Chitosan; Cellulose; Blend film; ZnCl2·3H2O; Antibacterial activity; Characterization1 Chitosan; Fe3O4; Magnetic microparticles; Removal; Congo red; Regeneration1 Chitosan; Immobilized lipase; Pitch deposits; Whitewater; Papermaking1 Chitosan; Montmorillonite; Pickering emulsion; ASA; Sizing1 Chitosan; Polyamide66; Deacetylation; Polymer blends; Thermal properties; Morphological properties.1 Chlorination, Lignin, Guaiacyl units, Syringyl units, Methanol, Methoxyl groups1 Cinnamaldehyde, Chalcone, Chromophore, Lignin, Model compounds, Pulping, Sulfonation1 Clarification; Desizing; Hemicellulose; Pulp; Paper; Xylitol; Xylanase1 Climb-sawing; Counter-sawing; Cutting force; Power consumption1 Coalescence; Aggregation; Cellulose; Chemical pulp; Hornification; Microfibril; Swelling1 No aplica2 Wood products industry; Furniture manufacturing industry; Lean awareness; Lean implementation; Need for external Lean implementation support; Commonwealth of Virginia2