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Hydrogenation of levulinic acid to gamma-valerolactone over nickel supported organoclay catalyst
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Catalysis Today,
2023 |
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Understanding the Interactions between Triolein and Cosolvent Binary Mixtures Using Molecular Dynamics Simulations
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ACS omega,
2022 |
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Ionic liquids for the sustainable transformation of levulinic acid to gamma-valerolactone (GVL)
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Current Opinion in Green and Sustainable …,
2022 |
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[4]
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Valorising polysaccharide-rich waste into value-added chemicals in green solvents
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2022 |
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Chemical kinetics of cyclic ethers in combustion
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Progress in Energy and …,
2022 |
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Liquid Organic Hydrogen Carriers (LOHCs) as H‐Source for Bio‐Derived Fuels and Additives Production
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Advanced Energy Materials,
2022 |
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Renewable bio-based routes to γ-valerolactone in the presence of hafnium nanocrystalline or hierarchical microcrystalline zeotype catalysts
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Journal of …,
2022 |
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Recent advances in production of bioenergy carrying molecules, microbial fuels, and fuel design-A review
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Fuel,
2022 |
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Nitrogen-doped Co catalyst derived from carbothermal reduction of cobalt phyllosilicate and its application in levulinic acid hydrogenation to γ-valerolactone
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Catalysis Letters,
2022 |
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[10]
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Biomass waste as sustainable raw material for energy and fuels
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2021 |
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Conversion of Lignocellulosic Biomass to Biofuels
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2021 |
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Autoignition and reactivity studies of renewable fuels and their blends with conventional fuels
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2021 |
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Sustainable production of levulinic acid and its derivatives for fuel additives and chemicals: progress, challenges, and prospects
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Green Chemistry,
2021 |
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The carbonate-catalyzed transesterification of sunflower oil for biodiesel production: in situ monitoring and Density Functional Theory calculations
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South African Journal …,
2021 |
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Aufwertung von aus Biomasse gewonnenen Plattformmolekülen in der Gasphase: von Lävulinsäure zu biobasierten Chemikalien
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2021 |
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Autoignition and combustion characteristics of biomass-derived fuel molecules in a spark-ignited engine
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2021 |
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[17]
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Start-up of the experimental setup for the hydrogenation reaction of levulinic acid to γ-Valerolactone over a Pd-doped ion-exchange resin
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2021 |
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[18]
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Isobaric Vapor–Liquid Equilibria for Binary Mixtures of Gamma-Valerolactone+ Toluene
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2020 |
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[19]
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Experimental Evaluation of a New Approach for a Two-Stage Hydrothermal Biomass Liquefaction Process
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2020 |
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[20]
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Ni Supported on Natural Clays as a Catalyst for the Transformation of Levulinic Acid into γ-Valerolactone without the Addition of Molecular Hydrogen
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2020 |
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[21]
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Microwave-assisted catalytic conversion of glucose to 5-hydroxymethylfurfural using “three dimensional” graphene oxide hybrid catalysts
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2020 |
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[22]
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Isobaric Vapor–Liquid Equilibria for Binary Mixtures of Biomass-Derived γ-Valerolactone+ Tetrahydrofuran and 2-Methyltetrahydrofuran
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2020 |
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[23]
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On the HCCI Octane Boosting Effects of Î-Valerolactone
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2020 |
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[24]
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Fuel‐Driven Biorefineries Using Hydrothermal Processes
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2020 |
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[25]
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The Carbonate-Catalysed Transesterification of Sunflower Oil for Biodiesel Production: In Situ Monitoring and Density Functional Theory Calculations
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2020 |
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[26]
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Molecular dynamics and density functional theory studies of γ-butyrolactone (GBL)+ ethanol and γ-valerolactone (GVL)+ ethanol liquid mixtures
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2020 |
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[27]
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Proizvodnja biogoriv iz lignocelulozne biomase
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2020 |
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[28]
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A levulinsav és származékainak értéknövelő heterogén katalitikus átalakítása
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2019 |
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[29]
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Other Drop-In Liquid Biofuels
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2019 |
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[30]
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Solubility behavior of γ-valerolactone+ n-tetradecane or diesel mixtures at different temperatures
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2019 |
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[31]
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CFD Design of Hydrogenation Reactor for Transformation of Levulinic Acid to γ-Valerolactone (GVL) by using High Boiling Point Organic Fluids
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2019 |
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[32]
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Green synthesis of gamma-valerolactone (GVL) through hydrogenation of biomass-derived levulinic acid using non-noble metal catalysts: A critical review
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2019 |
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[33]
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Thermal and Volumetric Properties of Five Lactones at Infinite Dilution in Water
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2019 |
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[34]
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On the HCCI Octane Boosting Effects of γ-Valerolactone
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2019 |
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[35]
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Continuous flow hydrogenation of methyl and ethyl levulinate: an alternative route to γ-valerolactone production
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2019 |
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Engine exhaust system, emission and its control
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2018 |
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Pressure-dependent branching in initial decomposition of gamma-valerolactone: a quantum chemical/RRKM study
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RSC Advances,
2018 |
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[38]
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Economic potential of 2-methyltetrahydrofuran (MTHF) and ethyl levulinate (EL) produced from hemicelluloses-derived furfural
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Biomass and Bioenergy,
2018 |
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[39]
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Future Trends and Outlook in Biofuels Production
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2018 |
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Biofuels production and processing technology
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2017 |
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Influence of Gamma-Valerolactone-n-Butanol-Diesel Blends on Physicochemical Characteristics and Emissions of a Diesel Engine
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Journal of Biobased Materials and Bioenergy,
2017 |
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[42]
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Microwave‐Assisted Valorization of Biowastes to Levulinic Acid
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ChemistrySelect,
2017 |
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Reactions of lactones with tropospheric oxidants: A kinetics and products study
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Atmospheric Environment,
2017 |
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Investigating the Combustion and Emissions Characteristics of Biomass-Derived Platform Fuels as Gasoline Extenders in a Single Cylinder Spark-Ignition Engine
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2017 |
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[45]
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Vapor–Liquid Equilibrium of γ-Valerolactone and Formic Acid at p = 51 kPa
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Journal of Chemical & Engineering Data,
2017 |
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[46]
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Production of Bio-Oil
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2017 |
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[47]
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Applications of novel biomass-derived platform molecule γ-valerolactone
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2016 |
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[48]
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Efficient hydrogenation of levulinic acid in water using a supported Ni–Sn alloy on aluminium hydroxide catalysts
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Catalysis Science & Technology,
2016 |
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[49]
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Vapor–Liquid Equilibrium Study of the Gamma-Valerolactone–Water Binary System
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Journal of Chemical & Engineering Data,
2016 |
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Effect of lignin-derived cyclohexanol on combustion, performance and emissions of a direct-injection agricultural diesel engine under naturally aspirated and exhaust gas recirculation (EGR) modes
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Fuel,
2016 |
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[51]
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The oxidation of the novel lignocellulosic biofuel γ-valerolactone in a low pressure flame
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Proceedings of the Combustion Institute,
2016 |
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[52]
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Direct and relative rate coefficients for the gas-phase reaction of OH radicals with 2-methyltetrahydrofuran at room temperature
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Reaction Kinetics, Mechanisms and Catalysis,
2016 |
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[53]
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Isobaric Vapor–Liquid Equilibria for Binary Mixtures of γ-Valerolactone+ Methanol, Ethanol, and 2-Propanol
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Journal of Chemical & Engineering Data,
2016 |
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[54]
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Effective conversion of biomass-derived ethyl levulinate into γ-valerolactone over commercial zeolite supported Pt catalysts
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RSC Advances,
2016 |
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[55]
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新型生物质基平台分子 γ-戊内酯的应用
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2016 |
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[56]
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Experimental and Computational Study on Liquid–Liquid Equilibrium in Ternary Systems of γ-Valerolactone, Toluene, and Hydrocarbons
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Journal of Chemical & Engineering Data,
2015 |
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[57]
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An experimental and kinetic modeling study of γ-valerolactone pyrolysis
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Combustion and Flame,
2015 |
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[58]
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Upgrading furfurals to drop-in biofuels: An overview
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ACS Sustainable Chemistry & Engineering,
2015 |
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[59]
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Kinetics of the reaction of OH radicals with the biofuel molecule 2-methyltetrahydrofuran
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2015 |
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[60]
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Binary Liquid–Liquid Equilibria of γ-Valerolactone with Some Hydrocarbons
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Journal of Chemical & Engineering Data,
2015 |
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[61]
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Microwave-Assisted Conversion of Levulinic Acid to γ-Valerolactone Using Low-Loaded Supported Iron Oxide Nanoparticles on Porous Silicates
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Applied Sciences,
2015 |
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[62]
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Chemical kinetics and transport of tropospheric trace compounds-implications for environment and air quality
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2015 |
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[63]
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Direct Production of 5‐Hydroxymethylfurfural via Catalytic Conversion of Simple and Complex Sugars over Phosphated TiO2
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ChemSusChem,
2015 |
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[64]
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Production of γ-valerolactone from lignocellulosic biomass for sustainable fuels and chemicals supply
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Renewable and Sustainable Energy Reviews,
2014 |
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[65]
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Perfluorinated Sulfonate Resins as Reusable Heterogeneous Catalysts for the One‐pot Synthesis of DiPhenolic Esters (DPEs)
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[66]
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Highly Efficient Spherically Shaped Ru/C Catalysts to Produce Gamma-Valerolactone from Levulinc Acid Under Mild Conditions
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Bernal
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[67]
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Engine Performance Using Blended Fuels of Biodiesel and Eco Diesel
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