Megyesi, R.; Forro, E.; Fulop, F.; Tetrahedron, 2018, 74(21), 2634-2640
My twenty years in microwave chemistry: from kitchen ovens to microwaves that aren’t microwaves
Kappe, C. O.; Chem. Rec., 2019, 19(1), 15-39
New copper-containing catalysts based on modified amorphous silica and their use in flow azide—alkyne cycloaddition
Burilov, V. A.; Nurmukhametova, A. N.; Belov, R. N.; Mironova, D. A.; Vorob’ev, V. V.; Osin, Yu. N.; Antipin, I. S.; Russian Chemical Bulletin Int. Ed., 2018, 67, 461-468
Tunability and scalability of single-atom catalysts based on carbon nitride
Chen, Z.; Mitchell, S.; Krumeich, F.; Hauert, R.; Yakunin, S.; Kovalenko, M. V.; Perez-Ramirez, J.; ACS Sustainable. Chem. Eng., 2019, 7(5), 5223-5230
The titanium-mediated double reductive cleavage of cyclic sulfonamides for the synthesis of aryl pyrrolidines
Khalifa, A.; Evans, P.; J. Org. Chem., 2019, 84(5), 2969-2975
Flow-chemistry enabled efficient synthesis of β-peptides: backbone topology vs. helix formation
Mandity, I.; Fulop, F.; Nekka, I.; Bogdan, D.; Gati, T.; Beni, S.; Juhasz, T.; Palko, M.; Paragi, G.; Toth, G.; Chem. Commun., 2019, 55, 3061-3064
Continuous-flow protocol for the synthesis of enantiomerically pure intermediates of anti epilepsy and anti tuberculosis active pharmaceutical ingredients
de Souza, R. O. M. A.; Aguiar, R.; Leao, R. A. C.; Miranda, L. S. N.; Kappe, C. O.; Cantillo, D.; Mata, A.; Org. Biomol. Chem., 2019, 17, 1552-1557
A versatile de novo synthesis of legionaminic acid and 4-epi-legionaminic acid starting from D-serine
Gintner, M.; Yoneda, Y.; Schmölzer, C.; Denner, C.; Kahlig, H.; Schmid, W.; Carbohydrate Research, 2019, 474, 34-42
Iridium(I)-NHC-phosphine complex-catalyzed hydrogen generation and storage in aqueous formate/bicarbonate solutions using a flow reactor – Effective response to changes in hydrogen demand
Horvath, H.; Papp, G.; Kovacs, H.; Katho, A.; Joo, F.; Int. J. Hydrogen Energy, 2019, 44(53), 28527-28532
Diastereoselective synthesis of cis-N-Boc-4-aminocyclohexanol with reductive ring opening method using continuous flow
Szabo, B.; Tamas, B.; Faigl, F.; Eles, J.; Greiner, I.; J. Flow Chem., 2019, 9(1), 13-17