81 |
Porous iron-phosphonate nanomaterial as an efficient catalyst for the CO2 fixation at atmospheric pressure and esterification of biomass-derived levulinic acid Ghosh S, Bhanja P, Salam N, Khatun R, Bhaumik A, Islam SM Catalysis Today, 309, 253, 2018 |
82 |
Levulinate-intercalated LDH: A potential heterogeneous organocatalyst for the green epoxidation of alpha,beta-unsaturated esters Candu N, Paul D, Marcu IC, Parvulescu VI, Coman SM Catalysis Today, 306, 154, 2018 |
83 |
Esterification of levulinic acid with ethanol catalyzed by sulfonated carbon catalysts: Promotional effects of additional functional groups Ogino I, Suzuki Y, Mukai SR Catalysis Today, 314, 62, 2018 |
84 |
Novel synthesis of Ru/OMS catalyst by solvent-free method: Selective hydrogenation of levulinic acid to gamma-valerolactone in aqueous medium and kinetic modelling Molleti J, Tiwari MS, Yadav GD Chemical Engineering Journal, 334, 2488, 2018 |
85 |
Thermo-kinetic assessment of glucose decomposition to 5-hydroxymethyl furfural and levulinic acid over acidic functionalized ionic liquid Ramli NAS, Amin NAS Chemical Engineering Journal, 335, 221, 2018 |
86 |
A decision support platform for a bio-based supply chain: Application to the region of Lower Saxony and Bremen (Germany) Galanopoulos C, Barletta D, Zondervan E Computers & Chemical Engineering, 115, 233, 2018 |
87 |
Effects of transition metals on hydrothermal liquefaction of empty fruit bunches (EFB) for conversion to biofuel and valuable chemicals Lee JH, Hwang H, Choi JW Energy, 162, 1, 2018 |
88 |
Transfer-hydrogenation of furfural and levulinic acid over supported copper catalyst Gong WB, Chen C, Fan RY, Zhang HM, Wang GZ, Zhao HJ Fuel, 231, 165, 2018 |
89 |
Experimental and kinetic study of glucose conversion to levulinic acid in aqueous medium over Cr/HZSM-5 catalyst Wei WQ, Wu SB Fuel, 225, 311, 2018 |
90 |
Thermo-chemical conversion for production of levulinic and formic acids from glucosamine Park MR, Kim HS, Kim SK, Jeong GT Fuel Processing Technology, 172, 115, 2018 |