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Automated technology for performing flow chemistry at elevated temperature and pressure
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Synthesis of sugar-lactams from azides of glucuronic acid
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Nanoparticle synthesis completed with in situ catalyst preparation performed on a high-pressure high-temperature continuous flow reactor
Niesz, K.; Hornyak, I.; Borcsek, B.; Darvas, F.; Microfluidics and Nanofluidics, 2008, 5(3), 411-416
Enantiomer selective acylation of racemic alcohols by lipases in continuous-flow bioreactors
Csajagi, Cs.; Szatzker, G.; Toke, E. R.; Urge, L.; Darvas, F.; Poppe, L.; Tetrahedron: Asymmetry, 2008, 19(2), 237-246
Flow reactors for drug discovery flow for reaction optimization, library synthesis, and scale up
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Electrophile-induced dearomatizing spirocyclization of N-arylisonicotinamides: A route to spirocyclic piperidines
Arnott, G.; Brice, H.; Clayden, J.; Blaney, E.; Organic Letters, 2008, 10(14), 3089-3092
High-efficiency aminocarbonylation by introducing CO to a pressurized continuous flow reactor
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New data on the Orito reaction: Effect of substrate structure on nonlinear phenomenon
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Heterogeneous versus homogeneous palladium catalysts for ligandless Mizoroki-Heck reactions: A comparison of batch/microwave and continuous‐flow processing
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