Keywords: γ-والرولاکتون; GVL; γ-valerolactone; RB; Residual Biomass; PSSF; Pre-hydrolysis simultaneous saccharification and fermentation; NP; Nonylpheol; RSM; Response surface methodology; NS; Non-significant; CR; Cellulose recovery %; Organosolv pretreatment; Eucalyptus; Gamma-
مقالات ISI γ-والرولاکتون (ترجمه نشده)
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Keywords: γ-والرولاکتون; Meso-MOFs; mesoporous metal-organic frameworks; PCNs; porous coordination networks; SBU; secondary building unit; CUSs; coordinatively unsaturated sites; H2BDC; 1,4-benzene dicarboxylic acid (terephthalic acid); H3BTC; 1,3,5-benzene tricarboxylic acid (
Keywords: γ-والرولاکتون; Furfural; Corncob; SO42â/SnO2-diatomite; Co-catalysis; γ-Valerolactone;
Keywords: γ-والرولاکتون; 3-HPA; 3-hydroxypropionic acid; AD; anaerobic digestion; AHA; α-hydroxy acid; AX; arabinoxylans; BM; biomethane; BS; biosyngas; CAGR; compounded annual growth rate; CHP; combined heat and power; CMF; 5-chloromethyl furfural; DHA; docosahexanoid acid; DME
Keywords: γ-والرولاکتون; Hydrogenation; γ-Valerolactone; Lanthanum promoter; Ru catalyst; Ru-La interaction; Co-effect;
Keywords: γ-والرولاکتون; Levulinic acid hydrogenation; Gold-irdium catalyst; Gold-ruthenium catalyst; γ-Valerolactone; Synergistic effect;
Keywords: γ-والرولاکتون; Lignocellulosic pretreatment; Cellulose; Lignin; Sugar; Pulp; Bioproducts; AFEX; Ammonia fibre expansion; FDCA; 2,5-furandicarboxylic acid; GVL; γ-valerolactone; HMF; 5-hydroxymethyl; SPORL; sulfite pretreatment to overcome recalcitrance of lignocellulos
Keywords: γ-والرولاکتون; Hydrothermal liquefaction; Transition metal chlorides; HTL oil; Coconut shell; Levulinic acid; γ-Valerolactone;
Keywords: γ-والرولاکتون; γ-valerolactone; 4-pentenoic acid; Pyrolysis; Isodesmic reaction; Kinetic model;
Keywords: γ-والرولاکتون; Biofuels; γ-Valerolactone; Process design; Heat integration; Technoeconomic evaluation;
Heteropolyacid supported on Zr-Beta zeolite as an active catalyst for one-pot transformation of furfural to γ-valerolactone
Keywords: γ-والرولاکتون; Zr-Beta zeolite; Heteropolyacid; Bifunctional catalyst; Biomass; γ-Valerolactone;
Raney-Ni catalyzed conversion of levulinic acid to 5-methyl-2-pyrrolidone using ammonium formate as the H and N source
Keywords: γ-والرولاکتون; Levulinic acid; 5-Methyl-2-pyrrolidone; γ-Valerolactone; Ammonium formate; Raney-Ni;
One-pot production of hydrocarbon oils from biomass derived γ-valerolactone
Keywords: γ-والرولاکتون; γ-Valerolactone; Hydrocarbon oil; Deoxygenation; Phosphoric acid catalyst;
Determination of γ-valerolactone content in its synthesis and biorefinery processes by headspace analysis technique
Keywords: γ-والرولاکتون; γ-Valerolactone; Biorefinery; Full evaporation; Headspace analysis; Gas chromatography;
Production of γ-valerolactone from levulinic acid over a Ru/C catalyst using formic acid as the sole hydrogen source
Keywords: γ-والرولاکتون; γ-valerolactone; Ru/C catalyst; Triethylamine; Levulinic acid; Formic acid;
Stable Cu-Ni/SiO2 catalysts prepared by using citric acid-assisted impregnation for vapor-phase hydrogenation of levulinic acid
Keywords: γ-والرولاکتون; Levulinic acid; γ-Valerolactone; Citric acid; Cu-Ni bimetallic catalyst; Stable activity;
Green and efficient production of furfural from corn cob over H-ZSM-5 using γ-valerolactone as solvent
Keywords: γ-والرولاکتون; Corn cob; Furfural; H-ZSM-5; γ-Valerolactone; Brønsted acid; Kinetics;
Improved catalytic activity and stability for hydrogenation of levulinic acid by Ru/N-doped hierarchically porous carbon
Keywords: γ-والرولاکتون; γ-Valerolactone; Metallic ruthenium; Nitrogen; Hierarchical pores; Levulinic acid;
Fast dissolution pretreatment of the corn stover in gamma-valerolactone promoted by ionic liquids: Selective delignification and enhanced enzymatic saccharification
Keywords: γ-والرولاکتون; Bioenergy; Corn stover; Enzymatic saccharification; Ionic liquids; γ-Valerolactone;
An efficient and reusable bimetallic Ni3Fe NPs@C catalyst for selective hydrogenation of biomass-derived levulinic acid to γ-valerolactone
Keywords: γ-والرولاکتون; Levulinic acid; γ-valerolactone; Bimetallic catalyst; Hydrogenation; Dual-catalytic functionality;
Aqueous phase hydrogenation of levulinic acid to γ-valerolactone on supported Ru catalysts prepared by microwave-assisted thermolytic method
Keywords: γ-والرولاکتون; ruthenium catalysts; microwave synthesis; levulinic acid; aqueous phase hydrogenation; γ-valerolactone;
One-pot catalytic production of 1, 3-propanediol and γ-valerolactone from glycerol and levulinic acid
Keywords: γ-والرولاکتون; 1,3-Propanediol; γ-Valerolactone; Glycerol; Levulinic acid; Hydrogenolysis; Hydrogenation;
Coupling Ru nanoparticles and sulfonic acid moieties on single MIL-101 microcrystals for upgrading methyl levulinate into γ-valerolactone
Keywords: γ-والرولاکتون; Metal-organic framework; Dual-functionalized catalyst; Biomass conversion; Synergistic catalysis; γ-Valerolactone; Sulfonic acid-functionalized MIL-101;
Selective hydrogenation of levulinic acid into γ-valerolactone over Cu/Ni hydrotalcite-derived catalyst
Keywords: γ-والرولاکتون; Levulinic acid; γ-valerolactone; Hydrotalcite-derived; Hydrogenation; Copper; Nickel;
Hydrogenation of levulinic acid into gamma-valerolactone over in situ reduced CuAg bimetallic catalyst: Strategy and mechanism of preventing Cu leaching
Keywords: γ-والرولاکتون; Levulinic acid; γ-Valerolactone; CuAg/Al2O3 catalyst; Metal leaching; In situ reduction;
Insights into interactions between 1-butyl-3-methylimidazolium dicyanamide and molecular solvents: γ-valerolactone, γ-butyrolactone and propylene carbonate. Volumetric properties and MD simulations
Keywords: γ-والرولاکتون; Imidazolium ionic liquids; Dicyanamide; γ-butyrolactone; γ-valerolactone; Propylene carbonate; Volumetric properties; Molecular dynamics simulations;
Highly selective and efficient solvent-free transformation of bio-derived levulinic acid to γ-valerolactone by Ru(II) arene catalyst precursors
Keywords: γ-والرولاکتون; GVL; γ-Valerolactone; LA; Levulinic acid; 4-HVA; 4-Hydroxyvaleric acid; Et3N; Triethylamine; FA; Formic acid; HMF; Hydroxymethylfurfural; Solvent-free reactions; Formic acid; Hydrogen generation; Levulinic acid; Gamma-valerolactone; Arene ruthenium(II) c
On the role of oxocarbenium ions formed in Brønsted acidic condition on γ-Al2O3 surface in the ring-opening of γ-valerolactone
Keywords: γ-والرولاکتون; Biomass; Platform molecules; Reaction mechanism; Brønsted and Lewis acidity; Ring-opening; γ-valerolactone;
Efficient degradation of lignin in raw wood via pretreatment with heteropoly acids in γ-valerolactone/water
Keywords: γ-والرولاکتون; Raw wood; Degrade lignin; γ-Valerolactone; Heteropoly acids; Enzymatic hydrolysis;
Hydrodeoxygenation activity of W modified Ni/H-ZSM-5 catalyst for single step conversion of levulinic acid to pentanoic acid: An insight on the reaction mechanism and structure activity relationship
Keywords: γ-والرولاکتون; Biomass; Levulinic acid; Ni-W-H-ZSM-5; Pentanoic acid; γ-Valerolactone; Brønsted acidity;
Effects of transition metals on hydrothermal liquefaction of empty fruit bunches (EFB) for conversion to biofuel and valuable chemicals
Keywords: γ-والرولاکتون; Empty fruit bunches; Hydrothermal liquefaction; Transition metal chlorides; HTL oil; γ-Valerolactone; Levulinic acid;
Selective hydrogenation of biomass-derived ethyl levulinate to γ-valerolactone over supported Co catalysts in continuous process at atmospheric pressure
Keywords: γ-والرولاکتون; Biomass; Ethyl levulinate; γ-Valerolactone; SBA-15; Cobalt;
An efficient NixZryO catalyst for hydrogenation of bio-derived methyl levulinate to γ-valerolactone in water under low hydrogen pressure
Keywords: γ-والرولاکتون; NixZryO; Methyl levulinate; γ-Valerolactone; Catalytic hydrogenation; Aqueous solution;
Novel aqueous-phase hydrogenation reaction of the key biorefinery platform chemical levulinic acid into γ-valerolactone employing highly active, selective and stable water-soluble ruthenium catalysts modified with nitrogen-containing ligands
Keywords: γ-والرولاکتون; Hydrogenation; Biorefinery; Levulinic acid; γ-valerolactone; Water;
Carbon nanosphere supported Ru catalyst for the synthesis of renewable herbicide and chemicals
Keywords: γ-والرولاکتون; Carbon sphere; Carbonaceous; Hydrogenation; 5-Aminolevulinic acid; γ-valerolactone;
Integrated strategy for N-methylformanilide production from carbon dioxide of flue gas in coal-fired power plant
Keywords: γ-والرولاکتون; CO2; N-methylformanilide; γ-valerolactone; Process designs; Economic feasibility;
Process design and techno-economic evaluation for catalytic production of cellulosic γ-Valerolactone using lignin derived propyl guaiacol
Keywords: γ-والرولاکتون; γ-Valerolactone; Propyl guaiacol; Large-scale process designs; Heat exchanger network; Techno-economic evaluation;
Kinetic analysis of the catalytic hydrogenation of alkyl levulinates to γ-valerolactone
Keywords: γ-والرولاکتون; Alkyl levulinates; γ-valerolactone; Levulinic acid; Levulinic acid esters; Hydrogenation; Kinetics; Heterogeneous catalysts; Ru/C;
Integrated process for simultaneous production of jet fuel range alkenes and N-methylformanilide using biomass-derived gamma-valerolactone
Keywords: γ-والرولاکتون; Jet-fuel range alkenes; N-methylformanilide; γ-Valerolactone; Commercial-scale process designs; Economic analysis;
Catalytic transfer hydrogenation of ethyl levulinate to γ-valerolactone over a novel porous Zirconium trimetaphosphate
Keywords: γ-والرولاکتون; γ-Valerolactone; Ethyl levulinate; Catalytic transfer hydrogenation; Zirconium trimetaphosphate; Catalytic mechanism;
Hydrogenation of biomass-derived ethyl levulinate into γ-valerolactone by activated carbon supported bimetallic Ni and Fe catalysts
Keywords: γ-والرولاکتون; Ni-Fe catalysts; Hydrogenation; Ethyl levulinate; γ-Valerolactone; Biomass conversion; Fuel;
The oxidation of the novel lignocellulosic biofuel γ-valerolactone in a low pressure flame
Keywords: γ-والرولاکتون; γ-valerolactone; Low pressure flame; Kinetic modeling; Species measurements;
Factors influencing the activity of SiO2 supported bimetal Pd-Ni catalyst for hydrogenation of α-angelica lactone: Oxidation state, particle size, and solvents
Keywords: γ-والرولاکتون; Palladium; Nickel; Particle size effect; α-Angelica lactone; γ-Valerolactone; Solvent effect;
Vapor-phase hydrogenation of levulinic acid and methyl levulinate to γ-valerolactone over non-noble metal-based catalysts
Keywords: γ-والرولاکتون; Levulinic acid; Methyl levulinate; γ-valerolactone; Hydrogenation; Non-noble metal;
Heterostructured Ni/NiO composite as a robust catalyst for the hydrogenation of levulinic acid to γ-valerolactone
Keywords: γ-والرولاکتون; Ni/NiO; Heterojunctions; Hydrogenation; Levulinic acid; γ-Valerolactone;
Exploring to direct the reaction pathway for hydrogenation of levulinic acid into γ-valerolactone for future Clean-Energy Vehicles over a magnetic Cu-Ni catalyst
Keywords: γ-والرولاکتون; Levulinic acid; γ-Valerolactone; Methyl levulinate; Reaction pathway; Hydrogenation; Future Clean-Energy Vehicles;
Preparation of Cu/MgO catalysts for γ-valerolactone hydrogenation to 1,4-pentanediol by MOCVD
Keywords: γ-والرولاکتون; Cu/MgO; MOCVD; γ-valerolactone; hydrogenation; 1,4-PDO;
Hydrodeoxygenation of γ-valerolactone on bimetallic NiMo phosphide catalysts
Keywords: γ-والرولاکتون; Transition metal phosphide catalysts; Bimetallic phosphides; NiMoP; Hydrodeoxygenation; γ-Valerolactone;
Catalytic transfer hydrogenation of biomass-derived levulinic acid and its esters to γ-valerolactone over ZrO2 catalyst supported on SBA-15 silica
Keywords: γ-والرولاکتون; Biomass conversion; Levulinic acid; γ-Valerolactone; Catalytic transfer hydrogenation; Mesoporous silica;
Catalytic transfer hydrogenation of ethyl levulinate to γ-valerolactone over zirconium (IV) Schiff base complexes on mesoporous silica with isopropanol as hydrogen source
Keywords: γ-والرولاکتون; Ethyl levulinate; Zr(IV)-schiff base complexes; MCM-41; Isopropanol; γ-valerolactone;