| Legfontosabb publikációk: |
- Mika,
L. T.*; Cséfalvay, E.; Németh, Á. Catalytic Conversion of Carbohydrates to
Initial Platform Chemicals: Chemistry and Sustainability, Chem. Rev. 2018, 118,
505.
- Náray-Szabó, G.; Mika,
L. T.* Conservative Evolution and Industrial Metabolism in Green Chemistry. Green
Chem. 2018, 20, 2171.
- Orha, L.; Tukacs, J. M.;
Gyarmati, B.; Szilágyi, A.; Kollár, L.; Mika, L. T.* Modular Synthesis of G-Valerolactone-Based Ionic Liquids and Their Application as Alternative Media
for Copper-Catalyzed Ullmann-Type Coupling Reactions. ACS Sustainable Chem.
Eng. 2018, 6, 5097.
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Horváth,
I. T.; Cséfalvay, E.; Mika, L. T.; Debreczeni, M. Sustainability Metrics for
Biomass-Based Carbon Chemicals ACS Sustainable Chem. Eng., 2017, 5,
2734–2740.
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Pongrácz,
P.; Bartal, B.; Kollár, L.; Mika, L. T.* Rhodium-catalyzed
hydroformylation in γ-valerolactone as a biomass-derived solvent, J.
Organomet. Chem., 2017, 847, 140.
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Tukacs,
J. M.; Holló, A. T.; Rétfalvi, N.; Cséfalvay, E.; Dibó, G.; Havasi, D.; Mika,
L. T.* Microwave-Assisted Valorization of Biowastes to Levulinic Acid ChemistrySelect, 2017, 2,
1375–1380.
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Pongrácz, P.; Kollár,
L.; Mika, L. T.* A step towards hydroformylation under sustainable conditions:
platinum-catalysed enantioselective hydroformylation of styrene in
gamma-valerolactone. Green Chem. 2016, 18, 842–847.
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