Publications
Automated Technology for Performing Flow-Chemistry at Elevated Temperature and Pressure
Kovacs, I., Jones, R., Niesz, K., Csajagi, Cs., Borcsek, B., Darvas, F., Urge, L., Automated Technology for Performing Flow-Chemistry at Elevated Temperature and Pressure. Journal of the Association for Laboratory Automation, 2007, 12 (5), 284-290
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Selective catalytic hydrogenations in a microfluidics-based high-throughput flow reactor on ion-exchange supported transition metal complexes: A modular approach to the heterogenization of soluble complex catalyst
Horvath, H., H., Papp, G., Csajagi, Cs., Joó, F., Selective catalytic hydrogenations in a microfluidics-based high-throughput flow reactor on ion-exchange supported transition metal complexes: A modular approach to the heterogenization of soluble complex catalyst, Cat. Comm., 2007, 8, 442-446
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Synthesis of macroline-saccharide hybrids by ring-closing metathesis of precursors derived from glycitols and benzoic acids
Matos, M and Murphy, P., V., Synthesis of macroline-saccharide hybrids by ring-closing metathesis of precursors derived from glycitols and benzoic acids, J. Org. Chem., 2007, 72, 1803-1806
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The Future of Organic Chemistry
Kündig, P., The Future of Organic Chemistry, Science, 2006, 314, 430-431
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Scaling up and validation of hydrogenation reactions using a continuous-flow microfluidics-based reactor, H-Cube™
Spadoni, C, Jones, R., Urge, L., Darvas, F., Scaling up and validation of hydrogenation reactions using a continuous-flow microfluidics-based reactor, H-Cube™; Chem. Today; February/March 2006; 38-41
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