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Publication DateJournal of Chemical Technology & Biotechnology, ISSN 0268-2575, 11/2019, Volume 94, Issue 11, pp. 3736 - 3744
Background In the production of biofuels from lignocellulosic material, biocrude plays a key role. The present work deals with the biocrude production through...
supercritical ethanol | hydrogen atmosphere | iron supported zeolite | birch | hydrothermal liquefaction (HTL) | Lignin | Chemical industry | Biomass energy | Hydrogen | Alcohol | Silica | Zeolites | Chromatography | Herbicides | Pesticides industry | Alcohol, Denatured | Ionization | Analysis | Mass spectrometry | Size exclusion chromatography | Hemicellulose | Nuclear magnetic resonance--NMR | Catalysts | Liquid phases | Esters | Iron | Biomass | Silicon dioxide | Degradation | Flame ionization detectors | Lignocellulose | Argon | Hydrogen ion concentration | Sugars | Carbon 13 | Biodegradation | Scanning electron microscopy | Spectroscopy | Fractionation | Wood | Ethanol | Liquefaction | Mass spectroscopy | Zeolite | Biofuels | Aluminum oxide | Gas chromatography | Organic chemistry | Inductively coupled plasma | Acids | Atmosphere | Phenols | Scientific imaging | Polymer Chemistry | Teknik och teknologier | Chemical Process Engineering | Kemiteknik | Kemiska processer | Chemical Engineering | Chemical Sciences | Engineering and Technology | Polymerkemi | Naturvetenskap | Kemi | Natural Sciences | Organisk kemi | Organic Chemistry
supercritical ethanol | hydrogen atmosphere | iron supported zeolite | birch | hydrothermal liquefaction (HTL) | Lignin | Chemical industry | Biomass energy | Hydrogen | Alcohol | Silica | Zeolites | Chromatography | Herbicides | Pesticides industry | Alcohol, Denatured | Ionization | Analysis | Mass spectrometry | Size exclusion chromatography | Hemicellulose | Nuclear magnetic resonance--NMR | Catalysts | Liquid phases | Esters | Iron | Biomass | Silicon dioxide | Degradation | Flame ionization detectors | Lignocellulose | Argon | Hydrogen ion concentration | Sugars | Carbon 13 | Biodegradation | Scanning electron microscopy | Spectroscopy | Fractionation | Wood | Ethanol | Liquefaction | Mass spectroscopy | Zeolite | Biofuels | Aluminum oxide | Gas chromatography | Organic chemistry | Inductively coupled plasma | Acids | Atmosphere | Phenols | Scientific imaging | Polymer Chemistry | Teknik och teknologier | Chemical Process Engineering | Kemiteknik | Kemiska processer | Chemical Engineering | Chemical Sciences | Engineering and Technology | Polymerkemi | Naturvetenskap | Kemi | Natural Sciences | Organisk kemi | Organic Chemistry
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Loading RightsHolzforschung, ISSN 0018-3830, 01/2018, Volume 72, Issue 2, pp. 97 - 104
The lipophilic and hydrophilic extractives in the sapwood (sW) and heartwood (hW) of stems from Mill and Dehnh trees grown in the north of Algeria were...
heartwood | hydrophilic | sapwood | extractives | lipophilic | Pinus halepensis | Eucalyptus camaldulensis | RESIN | SYLVESTRIS | ACIDS | STEMWOOD | MATERIALS SCIENCE, PAPER & WOOD | KNOTS | WOOD EXTRACTIVES | CHEMICAL-COMPOSITION | FORESTRY | LIPOPHILIC EXTRACTIVES | Glycerides | Esters | Alcohol | Pine trees | Solvent extraction | Polyols | Monosaccharides | Alcohols | Eucalyptus | Lipophilic | Sterols | Polyphenols | Sugar | Sugars | Trees | Flame ionization | Mass spectroscopy | Fatty acids | Chromatography | Gas chromatography | Ionization | Oleoresins | Flavanols | Fats | Terpenes | Acetone
heartwood | hydrophilic | sapwood | extractives | lipophilic | Pinus halepensis | Eucalyptus camaldulensis | RESIN | SYLVESTRIS | ACIDS | STEMWOOD | MATERIALS SCIENCE, PAPER & WOOD | KNOTS | WOOD EXTRACTIVES | CHEMICAL-COMPOSITION | FORESTRY | LIPOPHILIC EXTRACTIVES | Glycerides | Esters | Alcohol | Pine trees | Solvent extraction | Polyols | Monosaccharides | Alcohols | Eucalyptus | Lipophilic | Sterols | Polyphenols | Sugar | Sugars | Trees | Flame ionization | Mass spectroscopy | Fatty acids | Chromatography | Gas chromatography | Ionization | Oleoresins | Flavanols | Fats | Terpenes | Acetone
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Sugarcane bagasse valorization by fractionation using a water-based hydrotropic process
Industrial Crops & Products, ISSN 0926-6690, 12/2017, Volume 108, pp. 495 - 504
Sugarcane bagasse is abundant agro-industrial waste that can be potentially utilized as a source of valuable compounds and biopolymers. In the present study,...
Hydrotropic treatment | Fractionation | Spent solution | Bagasse hydrotropic pulp | Bagasse hydrotropic lignin | Chemical composition | Py–GC–MS | Sugarcane bagasse | BIRCH WOOD | AGRONOMY | CHEMICAL-CHARACTERIZATION | ACID | BIOPOLYMERS | HYDROLYSIS | STRUCTURAL-CHARACTERIZATION | MISCANTHUS | Py-GC-MS | AGRICULTURAL ENGINEERING | DEGRADATION | MILLED WOOD | LIGNIN | Sugarcane | Cellulose | Lignin | Formic acid | Organic acids
Hydrotropic treatment | Fractionation | Spent solution | Bagasse hydrotropic pulp | Bagasse hydrotropic lignin | Chemical composition | Py–GC–MS | Sugarcane bagasse | BIRCH WOOD | AGRONOMY | CHEMICAL-CHARACTERIZATION | ACID | BIOPOLYMERS | HYDROLYSIS | STRUCTURAL-CHARACTERIZATION | MISCANTHUS | Py-GC-MS | AGRICULTURAL ENGINEERING | DEGRADATION | MILLED WOOD | LIGNIN | Sugarcane | Cellulose | Lignin | Formic acid | Organic acids
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Loading RightsBIORESOURCES, ISSN 1930-2126, 2016, Volume 11, Issue 1, pp. 2809 - 2819
Arbutus andrachne and Platanus orientalis grow naturally in Turkey. They do not occur in stands but can be seen as solitary trees. A. andrachne is seen in...
ANTIOXIDANT ACTIVITY | QUERCUS-SUBER | Lipophilics | Suberin monomers | CHEMICAL-CHARACTERIZATION | Arbutus andrachne | CELL-LINES | MATERIALS SCIENCE, PAPER & WOOD | PLANT-EXTRACTS | Platanus orientalis | Hydrophillics | CORONARY-HEART-DISEASE | BETULA-PENDULA | LIPOPHILIC EXTRACTIVES | OUTER BARK | EUCALYPTUS-GLOBULUS
ANTIOXIDANT ACTIVITY | QUERCUS-SUBER | Lipophilics | Suberin monomers | CHEMICAL-CHARACTERIZATION | Arbutus andrachne | CELL-LINES | MATERIALS SCIENCE, PAPER & WOOD | PLANT-EXTRACTS | Platanus orientalis | Hydrophillics | CORONARY-HEART-DISEASE | BETULA-PENDULA | LIPOPHILIC EXTRACTIVES | OUTER BARK | EUCALYPTUS-GLOBULUS
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Loading RightsJournal of Polymer Science Part A: Polymer Chemistry, ISSN 0887-624X, 12/2013, Volume 51, Issue 23, pp. 5100 - 5110
ABSTRACT Polysaccharides are biorenewable and biodegradable starting materials for the development of functional materials. The synthesis of a monofunctional...
biodegradability | block‐copolymer | O‐acetyl galactoglucomannan | polysaccharide | amphiphilic | biorenewable | SET‐LRP | stimuli‐responsive | SET-LRP | block-copolymer | O-acetyl galactoglucomannan | stimuli-responsive | SELF-ASSEMBLIES | POLYMER SCIENCE | COMPLEXES | METHACRYLATE | TRANSFER RADICAL POLYMERIZATION | CONTAINING BLOCK-COPOLYMERS | FAMILY | RECOVERY | HIGH-SENSITIVITY | BRUSHES | WATER | Polymerization | Polysaccharides | Methyl methacrylate | Dimethyl sulfoxide | Chains (polymeric) | Polymer Chemistry | Chemical Sciences | Polymerkemi | Naturvetenskap | Kemi | Natural Sciences
biodegradability | block‐copolymer | O‐acetyl galactoglucomannan | polysaccharide | amphiphilic | biorenewable | SET‐LRP | stimuli‐responsive | SET-LRP | block-copolymer | O-acetyl galactoglucomannan | stimuli-responsive | SELF-ASSEMBLIES | POLYMER SCIENCE | COMPLEXES | METHACRYLATE | TRANSFER RADICAL POLYMERIZATION | CONTAINING BLOCK-COPOLYMERS | FAMILY | RECOVERY | HIGH-SENSITIVITY | BRUSHES | WATER | Polymerization | Polysaccharides | Methyl methacrylate | Dimethyl sulfoxide | Chains (polymeric) | Polymer Chemistry | Chemical Sciences | Polymerkemi | Naturvetenskap | Kemi | Natural Sciences
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Loading RightsCatalysis Letters, ISSN 1011-372X, 9/2018, Volume 148, Issue 9, pp. 2856 - 2868
Vanillin hydrodeoxygenation was investigated using Pt/C catalyst in the temperature and total pressure ranges of 80–200 °C and 20–30 bar in several solvents,...
Chemistry | Hydrodeoxygenation | Physical Chemistry | Organometallic Chemistry | Kinetic modelling | Catalysis | Vanillin | Industrial Chemistry/Chemical Engineering | PHASE | HYDROCARBONS | LIGNIN DEPOLYMERIZATION | CONVERSION | BIOMASS | DOPED CARBON | CHEMISTRY, PHYSICAL | CATALYSTS | Thermodynamics | Solvent effect | Solvents | Catalysts | Deoxygenation | Tetrahydrofuran | Polarity | Modelling | Selectivity | Conversion
Chemistry | Hydrodeoxygenation | Physical Chemistry | Organometallic Chemistry | Kinetic modelling | Catalysis | Vanillin | Industrial Chemistry/Chemical Engineering | PHASE | HYDROCARBONS | LIGNIN DEPOLYMERIZATION | CONVERSION | BIOMASS | DOPED CARBON | CHEMISTRY, PHYSICAL | CATALYSTS | Thermodynamics | Solvent effect | Solvents | Catalysts | Deoxygenation | Tetrahydrofuran | Polarity | Modelling | Selectivity | Conversion
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Loading RightsHolzforschung, ISSN 0018-3830, 05/2019, Volume 73, Issue 5, p. 475
The aim of the study was to find appropriate non-chlorinated solvent systems for the extraction and separation of pure pinosylvin (PS) and pinosylvin...
Solvents | Nuclear magnetic resonance--NMR | Purification | Wood | Ions | Mass spectroscopy | Liquid chromatography | Pine trees | High-performance liquid chromatography | Solvent extraction | Chromatography | Flame ionization detectors | Gas chromatography | Ionization | Pinosylvin | Mass spectrometry | High performance liquid chromatography
Solvents | Nuclear magnetic resonance--NMR | Purification | Wood | Ions | Mass spectroscopy | Liquid chromatography | Pine trees | High-performance liquid chromatography | Solvent extraction | Chromatography | Flame ionization detectors | Gas chromatography | Ionization | Pinosylvin | Mass spectrometry | High performance liquid chromatography
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Cellulose, ISSN 0969-0239, 12/2014, Volume 21, Issue 6, pp. 4497 - 4509
A major enhancement of grease and water vapor barrier properties was accomplished with a 1–10 g/m2 coating of O-acetyl galactoglucomannan (GGM) ester or with...
Polymer Sciences | Grease barrier | Chemistry | Thin coating | Physical Chemistry | WVTR | Biopolymer | Galactoglucomannan | Hemicellulose esters | Bioorganic Chemistry | Organic Chemistry | MIGRATION | HYDROGELS | POLYMER SCIENCE | MATERIALS SCIENCE, TEXTILES | CHITOSAN | CROSS-LINKING | MATERIALS SCIENCE, PAPER & WOOD | WATER-VAPOR BARRIER | OXYGEN | EDIBLE FILMS | DIFFUSION | DERIVATIVES | SPRUCE WOOD | Chemical properties | Coatings | Chemical synthesis | Production processes | Methods | Anhydrides | Moisture resistance | Nuclear magnetic resonance--NMR | Food packaging | Ions | Esters | Water vapor | Water resistance | Esterification | Rapeseed oil | Rapeseed | Food packaging industry | Mass spectrometry
Polymer Sciences | Grease barrier | Chemistry | Thin coating | Physical Chemistry | WVTR | Biopolymer | Galactoglucomannan | Hemicellulose esters | Bioorganic Chemistry | Organic Chemistry | MIGRATION | HYDROGELS | POLYMER SCIENCE | MATERIALS SCIENCE, TEXTILES | CHITOSAN | CROSS-LINKING | MATERIALS SCIENCE, PAPER & WOOD | WATER-VAPOR BARRIER | OXYGEN | EDIBLE FILMS | DIFFUSION | DERIVATIVES | SPRUCE WOOD | Chemical properties | Coatings | Chemical synthesis | Production processes | Methods | Anhydrides | Moisture resistance | Nuclear magnetic resonance--NMR | Food packaging | Ions | Esters | Water vapor | Water resistance | Esterification | Rapeseed oil | Rapeseed | Food packaging industry | Mass spectrometry
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Loading RightsNordic Pulp and Paper Research Journal, ISSN 0283-2631, 2012, Volume 27, Issue 1, pp. 6 - 17
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Loading RightsCarbohydrate Polymers, ISSN 0144-8617, 06/2018, Volume 190, pp. 95 - 102
The production of biofuels and other chemicals from lignocellulosic biomass is limited by the inefficiency of enzymatic hydrolysis. Here a biomimetic composite...
Bacterial cellulose | Hemicellulose | Enzymatic hydrolysis | Small-angle X-ray scattering | LIGNOCELLULOSIC BIOMASS | POLYMER SCIENCE | SMALL-ANGLE SCATTERING | WOOD | NEUTRON-SCATTERING | CHEMISTRY, ORGANIC | FILMS | STRUCTURAL-CHANGES | SURFACE | CHEMISTRY, APPLIED | IN-SITU-OBSERVATION | ACETOBACTER-XYLINUM | NATIVE CELLULOSE | Hydrolysis | Enzymes | Genetic engineering | Biomimetics | Biomass energy | Cellulose
Bacterial cellulose | Hemicellulose | Enzymatic hydrolysis | Small-angle X-ray scattering | LIGNOCELLULOSIC BIOMASS | POLYMER SCIENCE | SMALL-ANGLE SCATTERING | WOOD | NEUTRON-SCATTERING | CHEMISTRY, ORGANIC | FILMS | STRUCTURAL-CHANGES | SURFACE | CHEMISTRY, APPLIED | IN-SITU-OBSERVATION | ACETOBACTER-XYLINUM | NATIVE CELLULOSE | Hydrolysis | Enzymes | Genetic engineering | Biomimetics | Biomass energy | Cellulose
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Loading RightsJournal of Catalysis, ISSN 0021-9517, 03/2017, Volume 347, pp. 205 - 221
Sulfur-free Ni supported on H-Y zeolites, γ-Al O and SiO synthesized by the wet impregnation method, and Pd/C were tested in hydrodeoxygenation (HDO) of...
TOFA | Triglycerides | FAME | Hydrodeoxygenation | Green diesel | MESOPOROUS CARBON | CHEMISTRY, PHYSICAL | FATTY-ACIDS | PALMITIC ACID | RENEWABLE DIESEL | ENGINEERING, CHEMICAL | OIL | NICKEL | BIODIESEL PRODUCTION | DEOXYGENATION | STEARIC-ACID | DEACTIVATION | Sulfur compounds
TOFA | Triglycerides | FAME | Hydrodeoxygenation | Green diesel | MESOPOROUS CARBON | CHEMISTRY, PHYSICAL | FATTY-ACIDS | PALMITIC ACID | RENEWABLE DIESEL | ENGINEERING, CHEMICAL | OIL | NICKEL | BIODIESEL PRODUCTION | DEOXYGENATION | STEARIC-ACID | DEACTIVATION | Sulfur compounds
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Loading RightsJournal of Chemical Technology & Biotechnology, ISSN 0268-2575, 04/2017, Volume 92, Issue 4, pp. 741 - 748
BACKGROUND Hydrodeoxygenation (HDO) of Chlorella algal oil extracted with supercritical hexane and stearic acid as a model compound was investigated over...
hydrodeoxygenation | algal oil | molybdenum | HYDROCARBONS | MOLYBDENUM NITRIDE | CATALYTIC DEOXYGENATION | CHEMISTRY, MULTIDISCIPLINARY | ENGINEERING, CHEMICAL | DIESEL | NICKEL | ENGINEERING, ENVIRONMENTAL | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | FATTY-ACID | BIODIESEL | MICROALGAE OIL | STEARIC-ACID | FUELS | Chemical industry | Herbicides | Pesticides industry | Saturated fatty acids | Zeolites | Analysis | Chlorella | Catalysts | Crude oil | Algae | Hydrocarbons | Lipids | Nickel | Catalysis
hydrodeoxygenation | algal oil | molybdenum | HYDROCARBONS | MOLYBDENUM NITRIDE | CATALYTIC DEOXYGENATION | CHEMISTRY, MULTIDISCIPLINARY | ENGINEERING, CHEMICAL | DIESEL | NICKEL | ENGINEERING, ENVIRONMENTAL | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | FATTY-ACID | BIODIESEL | MICROALGAE OIL | STEARIC-ACID | FUELS | Chemical industry | Herbicides | Pesticides industry | Saturated fatty acids | Zeolites | Analysis | Chlorella | Catalysts | Crude oil | Algae | Hydrocarbons | Lipids | Nickel | Catalysis
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Loading RightsHolzforschung, ISSN 0018-3830, 03/2016, Volume 70, Issue 3, pp. 187 - 194
Hemicellulose -acetyl-galactoglucomannan (GGM) is the main noncellulosic water-soluble polysaccharide in the coniferous softwood Norway spruce, consisting of...
glucose | hemicellulose | mannose | galactoglucomannan (GGM) | galactose | acid catalyst | tubular reactor | hydrolysis | WOOD | MATERIALS SCIENCE, PAPER & WOOD | NORWAY SPRUCE | FORESTRY | WATER | Hemicellulose | Catalysts | Byproducts | Mannose | Flow rates | Glucose | Pine trees | pH effects | Conversion | Monomers | Substrates | Hydrolysis | Hydrochloric acid | Polysaccharides | Reactors | Acids | Laminar flow | pH | Continuous production | Dimers | Catalysis | Galactose | Sugar | Sugars
glucose | hemicellulose | mannose | galactoglucomannan (GGM) | galactose | acid catalyst | tubular reactor | hydrolysis | WOOD | MATERIALS SCIENCE, PAPER & WOOD | NORWAY SPRUCE | FORESTRY | WATER | Hemicellulose | Catalysts | Byproducts | Mannose | Flow rates | Glucose | Pine trees | pH effects | Conversion | Monomers | Substrates | Hydrolysis | Hydrochloric acid | Polysaccharides | Reactors | Acids | Laminar flow | pH | Continuous production | Dimers | Catalysis | Galactose | Sugar | Sugars
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Loading RightsBiofuels, ISSN 1759-7269, 2019, pp. 1 - 10
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Loading RightsJournal of Chemical Technology & Biotechnology, ISSN 0268-2575, 11/2015, Volume 90, Issue 11, pp. 1991 - 1998
BACKGROUND In the lube oil re‐refining industry silicon, coming mainly from antifoaming agents, is recognized to be a contaminant generating undesired solid...
base‐catalyzed transformation | lube oil re‐refining | polydimethylsiloxane | antifoam | Antifoam | Lube oil re-refining | Polydimethylsiloxane | Base-catalyzed transformation | THERMAL-DEGRADATION | ENGINEERING, CHEMICAL | lube oil re-refining | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | POLY(DIMETHYLSILOXANE) | MECHANISMS | base-catalyzed transformation | CHEMISTRY, MULTIDISCIPLINARY | Petroleum products | Silicon | Hydroxides | Petroleum industry | Lubrication and lubricants | Analysis | Biotechnology | Liquids | Sodium | Formations | Transformations | Deposition | Chemical technology
base‐catalyzed transformation | lube oil re‐refining | polydimethylsiloxane | antifoam | Antifoam | Lube oil re-refining | Polydimethylsiloxane | Base-catalyzed transformation | THERMAL-DEGRADATION | ENGINEERING, CHEMICAL | lube oil re-refining | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | POLY(DIMETHYLSILOXANE) | MECHANISMS | base-catalyzed transformation | CHEMISTRY, MULTIDISCIPLINARY | Petroleum products | Silicon | Hydroxides | Petroleum industry | Lubrication and lubricants | Analysis | Biotechnology | Liquids | Sodium | Formations | Transformations | Deposition | Chemical technology
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Loading RightsHolzforschung, ISSN 0018-3830, 12/2014, Volume 68, Issue 8, pp. 971 - 979
Various lignin determination methods have been applied to hemicellulose-rich wood extracts obtained after pressurized hot-water extraction (PHWE) and membrane...
furfural determination | KCL lignin determination | hydroxymethylfurfural (HMF) determination | chlorine number | acetyl bromide method | Klason lignin | lignin determination | membrane ultrafiltration of biomass | acid-soluble lignin | pressurized hot-water extraction (PHWE) | TAPPI method of lignin determination | WOOD | BLACK LIQUORS | PULP | MATERIALS SCIENCE, PAPER & WOOD | PLANTS | FORESTRY | Lignin | Fractions | Methods
furfural determination | KCL lignin determination | hydroxymethylfurfural (HMF) determination | chlorine number | acetyl bromide method | Klason lignin | lignin determination | membrane ultrafiltration of biomass | acid-soluble lignin | pressurized hot-water extraction (PHWE) | TAPPI method of lignin determination | WOOD | BLACK LIQUORS | PULP | MATERIALS SCIENCE, PAPER & WOOD | PLANTS | FORESTRY | Lignin | Fractions | Methods
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Loading RightsJournal of Wood Science, ISSN 1435-0211, 10/2006, Volume 52, Issue 5, pp. 436 - 444
The antioxidant properties of hydrophilic extracts of knotwood of several industrially important tree species were evaluated by lipid-peroxidation inhibition...
Life Sciences | Antioxidants | Flavonoids | Wood Science & Technology | Materials Science, general | Bark | Lignans | Characterization and Evaluation of Materials | Knots | PROTEIN | antioxidants | PHENOLIC-COMPOUNDS | STEMWOOD | TANNINS | HEARTWOOD | ROT FUNGI | HYDROXYL RADICAL ACTIVITY | MATERIALS SCIENCE, PAPER & WOOD | lignans | bark | knots | flavonoids | LIPOPHILIC EXTRACTIVES | Medicine, Botanic | Medicine, Herbal | Isoflavones | Properties (attributes) | Hydrophilicity | Lipids
Life Sciences | Antioxidants | Flavonoids | Wood Science & Technology | Materials Science, general | Bark | Lignans | Characterization and Evaluation of Materials | Knots | PROTEIN | antioxidants | PHENOLIC-COMPOUNDS | STEMWOOD | TANNINS | HEARTWOOD | ROT FUNGI | HYDROXYL RADICAL ACTIVITY | MATERIALS SCIENCE, PAPER & WOOD | lignans | bark | knots | flavonoids | LIPOPHILIC EXTRACTIVES | Medicine, Botanic | Medicine, Herbal | Isoflavones | Properties (attributes) | Hydrophilicity | Lipids
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Loading RightsISSN 1463-9262, 6/2019, Volume 21, Issue 12, pp. 337 - 3382
Betulin (90-94%) was extracted from birch with a non-polar solvent and recrystallized from 2-propanol. Liquid-phase oxidation of betulin aimed at obtaining its...
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Loading RightsFuel, ISSN 0016-2361, 09/2015, Volume 155, pp. 144 - 154
In situ transesterification of alga was performed using 5–20 wt% sulfuric acid as a catalyst at either 60 or 100 °C. The maximum ester yield in the range of...
Fuel quality | Transesterification | Biodiesel | Algae | Deoxygenation | MOLECULAR CHARACTERIZATION | ACID | CONVERSION | ENERGY & FUELS | DECARBOXYLATION | ENGINEERING, CHEMICAL | EXTRACTION | OIL | BIOMASS | FUEL | ORGANIC-SOLVENT | FRESH-WATER MICROALGAE | Zeolites | Biodiesel fuels | Chemical properties
Fuel quality | Transesterification | Biodiesel | Algae | Deoxygenation | MOLECULAR CHARACTERIZATION | ACID | CONVERSION | ENERGY & FUELS | DECARBOXYLATION | ENGINEERING, CHEMICAL | EXTRACTION | OIL | BIOMASS | FUEL | ORGANIC-SOLVENT | FRESH-WATER MICROALGAE | Zeolites | Biodiesel fuels | Chemical properties
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