γ-Valerolactone—a sustainable liquid for energy and carbon-based chemicals IT Horváth, H Mehdi, V Fábos, L Boda, LT Mika Green Chemistry 10 (2), 238-242, 2008 | 1077 | 2008 |
Catalytic conversion of carbohydrates to initial platform chemicals: chemistry and sustainability LT Mika, E Cséfalvay, Á Németh Chemical reviews 118 (2), 505-613, 2018 | 1052 | 2018 |
Integration of homogeneous and heterogeneous catalytic processes for a multi-step conversion of biomass: from sucrose to levulinic acid, γ-valerolactone, 1, 4-pentanediol, 2 … H Mehdi, V Fábos, R Tuba, A Bodor, LT Mika, IT Horváth Topics in Catalysis 48, 49-54, 2008 | 545 | 2008 |
Microwave-assisted conversion of carbohydrates to levulinic acid: an essential step in biomass conversion Á Szabolcs, M Molnár, G Dibó, LT Mika Green Chemistry 15 (2), 439-445, 2013 | 225 | 2013 |
Selective conversion of levulinic and formic acids to γ-valerolactone with the shvo catalyst V Fábos, LT Mika, IT Horváth Organometallics 33 (1), 181-187, 2014 | 161 | 2014 |
Efficient catalytic hydrogenation of levulinic acid: a key step in biomass conversion JM Tukacs, D Király, A Strádi, G Novodarszki, Z Eke, G Dibó, T Kégl, ... Green Chemistry 14 (7), 2057-2065, 2012 | 161 | 2012 |
An improved catalytic system for the reduction of levulinic acid to γ-valerolactone JM Tukacs, M Novák, G Dibó, LT Mika Catalysis Science & Technology 4 (9), 2908-2912, 2014 | 88 | 2014 |
Direct asymmetric reduction of levulinic acid to gamma-valerolactone: synthesis of a chiral platform molecule JM Tukacs, B Fridrich, G Dibó, E Székely, LT Mika Green chemistry 17 (12), 5189-5195, 2015 | 83 | 2015 |
A step towards hydroformylation under sustainable conditions: platinum-catalysed enantioselective hydroformylation of styrene in gamma-valerolactone P Pongrácz, L Kollár, LT Mika Green chemistry 18 (3), 842-847, 2016 | 72 | 2016 |
Stability of gamma-valerolactone under neutral, acidic, and basic conditions CYY Wong, AWT Choi, MY Lui, B Fridrich, AK Horváth, LT Mika, ... Structural Chemistry 28, 423-429, 2017 | 71 | 2017 |
Synthesis of γ-valerolactone using a continuous-flow reactor JM Tukacs, RV Jones, F Darvas, G Dibó, G Lezsák, LT Mika RSC advances 3 (37), 16283-16287, 2013 | 68 | 2013 |
Use of Gamma-Valerolactone as an illuminating liquid and lighter fluid V Fábos, MY Lui, YF Mui, YY Wong, LT Mika, L Qi, E Cséfalvay, V Kovács, ... ACS Sustainable Chemistry & Engineering 3 (9), 1899-1904, 2015 | 58 | 2015 |
Rhodium-catalyzed hydrogenation of olefins in γ-valerolactone-based ionic liquids A Strádi, M Molnár, M Óvári, G Dibó, FU Richter, LT Mika Green chemistry 15 (7), 1857-1862, 2013 | 57 | 2013 |
Vapor–liquid equilibrium study of the gamma-valerolactone–water binary system D Havasi, P Mizsey, LT Mika Journal of Chemical & Engineering Data 61 (4), 1502-1508, 2016 | 54 | 2016 |
Sustainability metrics for biomass-based carbon chemicals IT Horváth, E Cséfalvay, LT Mika, M Debreczeni ACS Sustainable Chemistry & Engineering 5 (3), 2734-2740, 2017 | 53 | 2017 |
Conservative evolution and industrial metabolism in Green Chemistry G Náray-Szabó, LT Mika Green chemistry 20 (10), 2171-2191, 2018 | 51 | 2018 |
Rhodium-catalyzed hydroformylation in γ-valerolactone as a biomass-derived solvent P Pongrácz, B Bartal, L Kollár, LT Mika Journal of Organometallic Chemistry 847, 140-145, 2017 | 50 | 2017 |
ε-Caprolactamium hydrogen sulfate: an ionic liquid used for decades in the large-scale production of ε-caprolactam V Fábos, D Lantos, A Bodor, AM Bálint, LT Mika, OE Sielcken, A Cuiper, ... ChemSusChem 1 (3), 189-192, 2008 | 45 | 2008 |
Application of γ‐Valerolactone as an Alternative Biomass‐Based Medium for Aminocarbonylation Reactions D Marosvölgyi‐Haskó, B Lengyel, JM Tukacs, L Kollár, LT Mika ChemPlusChem 81 (11), 1224-1229, 2016 | 42 | 2016 |
Ruthenium-catalyzed solvent-free conversion of furfural to furfuryl alcohol JM Tukacs, M Bohus, G Dibó, LT Mika RSC advances 7 (6), 3331-3335, 2017 | 41 | 2017 |