Temas |
Cantidad |
13C NMR; bamboo; Heteronuclear Single Quantum Correlation (HSQC); lignin structure | 1 |
: Melamine-urea-formaldehyde resin; Melamine addition stage; Performance; Curing behavior; Activation energy | 1 |
: prehydrolysis kraft; dissolving pulp; biorefinery; uronic acid; CO2; decarboxylation; xylan; xylooligosaccharides | 1 |
AKD; Cellulose; Homogeneous system; Heterogeneous system; Sizing mechanism | 1 |
Absorption; TEMPO-oxidation; Disintegration; MFC; Foam; Film; Freeze drying | 1 |
Acacia mangium wood; Adsorption; Physical activation; Microporous; Surface area | 1 |
Acetylation; Cotton linter; Cellulose acetate; Kinetics; Modeling; Dissolution | 1 |
Activated carbon; Acacia mangium; Pyrolysis; Chemical activation; Calcium oxide;Potassium hydroxide | 1 |
Activated carbon; Diazonium salt; Graft; Organic molecules | 1 |
Adsorption Isotherms; Lignin oxidation; Bagasse lignin; Kraft lignin; Lignin characterization | 1 |
Adsorption isotherms; Amine group-containing polymers; Charge density; Page equation; Recycling | 1 |
Adsorption; Mandarin peel; Ethanol fuel; FAAS | 1 |
Agriwaste utilization; Hand papermaking; Local plant fibres; Self-help groups | 1 |
Aldehyde; Catalysis; Gold nanoparticle; Organic–inorganic material; TEMPO oxidation | 1 |
Alkali extracted lignin; Oxidation; Sulfomethylation; Solubility; Surface tension; Dispersibility | 1 |
Alkali lignin; Pyrolysis; Gasification; TG-FTIR | 1 |
Alkaline precipitation; Magnesium lignosulfonate; Ion chromatography; Thermogravimetry | 1 |
Alkoxysilane; Sol-gel materials; Coniophora puteana; Trametes versicolor; Poria placenta; Wood modification | 1 |
Alkyl-aryl ether; Base; t-Butoxide; Half-life; Lignin | 1 |
Alkyl-aryl ether; Cooking; Delignification; Hydrolysis | 1 |
Amino-silicone, Brown rot, Macro-emulsion, Micro-emulsion, Quat-silicone, Soft rot, White rot | 1 |
Ammonium lignosulfonate; Oxidation; Chelating reaction; Structure | 1 |
Amphiphilic; Fatty acid; Hemicelluloses; Galactoglucomannan; Reductive amination; Surfactant; Surface tension | 1 |
Aromatic acids, calculation, lignin, oxidation, permanganate, phenol | 1 |
Artificial neural networks; Oriented strand board; Moisture absorption; Thickness swelling; Modeling | 1 |
Autohydrolysis; Scots pine; Carbohydrates; Volatile acids; Lignin; Furans; Biorefining; Principal component analysis | 1 |
Bacillus licheniformis; Copper; Impregnation; Refractory; Spruce | 1 |
Bagasse; Fiber; Biodegradable flame retarding composites (BFRCs); Thermoforming; Properties | 1 |
Bagasse; Lignin; Solubility; 1,4-butanediol | 1 |
Bamboo powder-polypropylene foamed composite; MAPP; coupling agent; Physico-mechanical properties; Rheological behavior | 1 |
Beating; Refining; Refinability; Swelling; Kraft Pulps; Charged Groups; Mechanical Properties | 1 |
Benzylation; Etherification; NaOH/urea aqueous solution; NMR; Thermal stability | 1 |
Bio-fibers; Nanoparticle; Surface modification; Clay, Adsorption | 1 |
Bio-pretreatment; Biomass; White-rot fungi; Medium-temperature pyrolysis; Py-GC/MS; Solid state 13C CP/MAS NMR | 1 |
Biomass; Carbon sulfonic acid; Hydrolysis of lignocellulose; Reducing sugars; Microwave irradiation | 1 |
Bleached kraft pulp; Eucalypt; Carboxyl groups; Potentiometric titration | 1 |
Ca2 ; Adsorption; Bleached Eucalyptus globulus kraft pulp; Charge screening effect; Drainage and retention abilities; Paper sheets properties | 1 |
Carboxymethyl cellulose; Cellulose backbone structures; Degree of substitution; Extended mercerization; Gel formation; Multivariate analytical methods; NIR FT Raman spectroscopy | 1 |
Cellulose derivatives; Cellophane; Cellulose acetate; Methylcellulose; Carboxymethylcellulose; Nanocomposites; Tensile properties; Water vapor permeability; Oxygen permeability; Food packaging | 1 |
Cellulose nanofibers, Nanostructure, Microfibrils, Biopolymers, Inverse gas chromatography | 1 |
Cellulose; Hexenuronic acid; Kraft pulp; Lignin; Microcrystalline cellulose; Phenolic hydroxyl group; Sulfite; UV resonance Raman spectroscopy | 1 |
Cellulose; Hydrogel; Antibacterial; Salt-sensitivity; Quaternary ammonium | 1 |
Cellulose; Polyoxometalate; Ionic liquids; Hydrolysis; Biomass; Monosaccharides; Biofuel | 1 |
Characterization; FTIR; pHzpc; Sawdust; SEM | 1 |
Chemical modification; Eucalyptus; Methylolurea; Physical and Chemical performance | 1 |
Chemical modification; Hot-press drying; Urea-formaldehyde prepolymer; Crosslinking mechanism | 1 |
Chemimechanical pulp; Discoloration; Light-induced; Lignin; Mechanical pulp; Stabilization; Yellowing | 1 |
Chestnut composting; Microbiological monitoring; PCR-DGGE; Sustainable fertilisation | 1 |
Chitosan; Corn cob; Glutaraldehyde; Biocomposite; Films | 1 |
Chlorination, Lignin, Guaiacyl units, Syringyl units, Methanol, Methoxyl groups | 1 |
Citrus sinensis; Free cyanide; Catalysis; Wastewater treatment | 1 |
Color change; Ammonia fuming; FTIR; Extractives; Tannin; Nitrogen content; Oak wood; Maple wood; Larch wood; Spruce wood | 1 |
Composite polymer electrolytes; Kenaf; Cellulose; Ionic conductivity; Mechanical properties | 1 |
Composites; Fillers; Poly (vinyl chloride); FTIR spectroscopy; Thermogravimetric analysis | 1 |
Composting; Lignocellulose degradation; Denaturing gradient gel electrophoresis; 16S rRNA gene clone library | 1 |
Compression wood; Opposite wood; Water absorption; Swelling; Mechanical properties; Wettability | 1 |
Conductive paper; Polyaniline; In-situ polymerization; XPS; Conductive percolation | 1 |
Conductive paper; Polyaniline; Pulp fibers; In-situ polymerization | 1 |
Corn cobs; Phosphorylate; Phosphosulfonate; Carboxylic; Sodium binding capacity; Metal ions uptake | 1 |
Cotton fiber; Anhydrous phosphoric acid; Acetylation; Nanocrystalline cellulose; Modification; Single-step method | 1 |
Defect; Drilled hole; Least square; Vibration; Wood | 1 |
Demethylation; Methylolation; Phenolation; Hydrolysis; Phenolic resin | 1 |
Dialdehyde chitosan; Silver nanoparticles; Green synthesis; Polysaccharide | 1 |
Dimensional stability; Photodegradation; Weathering; Lignin; Chemical modification; Wood | 1 |
Dye; Methylene blue; Sorption; FTIR; π interactions; Lignin moieties; Mechanism; ODR | 1 |
Electroless nickel plating; Carbon fiber (CF); Ni activation; Coating | 1 |
Enzymatic hydrolysis lignin (EHL); Oxygen plasma treatment; Glass transition temperature; Differential scanning calorimetry (DSC) | 1 |
Ether cellulose; Carboxymethylated fiber; Carboxylated fibers; Crystallinity index; XRD; FTIR | 1 |
European beech; False heartwood; High-frequency energy; Microwave treatment; Permeability; Compression strength | 1 |
FTIR; Biomass; Spectroscopy; Process monitoring; Nondestructive; Cellulose; Lignin; Hemicellulose | 1 |
Fiber; Dissolved air flotation rejects; Oxidation | 1 |
Fingerprinting techniques; P. longifolia; Heavy metal; Phytochemical; Characterization | 1 |
Fittings; Cam; Honeycomb; Joint; Bending; Angular axis | 1 |
Forests, Trees, Natural Resources, Habitat, Intensive forestry | 1 |
GC-MS; Dissolved and colloidal substances; Nanosized TiO2; Recycled papermaking | 1 |
Genetically modified trees; Transgenic aspen; Dynamic mechanical analysis; Compression-torsion, Glass transition temperature, Loss modulus, Storage modulus, Tan delta | 1 |
Glyoxalation; Hydroxymethylation; Alkaline lignin; Glyoxal; Wood adhesives | 1 |
Heat treatment; Chemical changes; Discoloration; Wood; DRUV; FTIR-ATR | 1 |
Heavy metal ions; Adsorption behavior; Hydrogels; Cellulose | 1 |
Heavy metals; Biomass; Tropical soils; Zinc | 1 |
Hemicellulose; Forest biomass; Hydrogel; Film; Semi-IPN; Chitosan; pH-sensitive; | 1 |
Hemicelluloses; Alkaline extraction; Integrated biorefinery; Fiber charge; Filler, retention | 1 |
High pressure steam; Lignocellulosic materials; Oil palm mesocarp fiber; Physicochemical properties | 1 |
Hydrophobic association; Cross linking; Polyacrylamide; Dispersion polymerization; “Water-in-water” | 1 |
Internal sizing, Hydrophobicity, Cellulosic fibers, Paper, Mechanisms, Curing, Liquid penetration, Rosin, ASA, AKD | 1 |
Jatropha oil cake (JOC); Biosorption; Heavy metal remediation; Immobilization | 1 |
Kenaf bast fiber; Cellulose nanowhisker; Retted fiber; Bleached fiber; Microfiber; Composites | 1 |
Kraft lignin; Dehydroabietic acid; Diethylenetriamine; Cationic surfactant; Surface activity | 1 |
Kraft lignin; Methylation; Oxypropylation; Thermal stability; Radical coupling reaction; Glass transition temperature; 31P NMR | 1 |
Laccase; Alkaline peroxide mechanical pulp; Lignin structure; 31P-NMR spectra; Molecular weight; GPC | 1 |
Laccase; Fiber; Functionalization; Phenolic compound; Pulp strength | 1 |
Laminated veneer lumber (LVL); Bending properties; Type of adhesive; Direction of the load; Eucalyptus grandis; Mechanical properties | 1 |
Layer-by-layer adsorption; Cellulosic polyelectrolyte; Fiber charge density | 1 |
Lignin, Hydroxymethylation, FTIR, Thermogravimetry | 1 |
Lignin, ion-exchange, infra-red, phosphorylation, metal-ion uptake | 1 |
Lignin; Ethanol-Water Fractionation; HPSEC; Infrared spectroscopy; Thermal analysis | 1 |
Lignin; Hydroxymethylation; Glyoxalation; Epoxidization; Epoxy resin | 1 |
Lignin; Hydroxyphenyl; Guaiacyl; β-O-4; Pyrolysis; GC/MS | 1 |
Lignin; Modification; Phenolic hydroxyl groups; Composite; Properties | 1 |
Lignin; Phenolic units; End groups; Cross-linking | 1 |