Sandor B. Otvos
Sandor B. Otvos
PostDoc at University of Graz, Institute of Chemistry (CC FLOW)
Verified email at - Homepage
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Highly Efficient 1, 4‐Addition of Aldehydes to Nitroolefins: Organocatalysis in Continuous Flow by Solid‐Supported Peptidic Catalysts
SB Ötvös, IM Mándity, F Fülöp
ChemSusChem 5 (2), 266-269, 2012
Strategic Application of Residence-Time Control in Continuous-Flow Reactors
IM Mándity, SB Ötvös, F Fülöp
ChemistryOpen 4 (3), 212-223, 2015
Continuous‐flow solid‐phase peptide synthesis: a revolutionary reduction of the amino acid excess
IM Mándity, B Olasz, SB Ötvös, F Fülöp
ChemSusChem 7 (11), 3172-3176, 2014
Harnessing the Versatility of Continuous-Flow Processes: Selective and Efficient Reactions
IM Mándity, SB Ötvös, G Szőlősi, F Fülöp
The Chemical Record 16 (3), 1018-1033, 2016
Asymmetric aldol reaction in a continuous-flow reactor catalyzed by a highly reusable heterogeneous peptide
SB Ötvös, IM Mándity, F Fülöp
Journal of catalysis 295, 179-185, 2012
Alkyne-azide cycloadditions with copper powder in a high-pressure continuous-flow reactor: high-temperature conditions versus the role of additives.
SB Ötvös, IM Mándity, L Kiss, F Fülöp
Chemistry, an Asian journal 8 (4), 800-808, 2013
Efficient continuous-flow synthesis of novel 1, 2, 3-triazole-substituted β-aminocyclohexanecarboxylic acid derivatives with gram-scale production
SB Ötvös, Á Georgiádes, IM Mándity, L Kiss, F Fülöp
Beilstein journal of organic chemistry 9 (1), 1508-1516, 2013
A layered double hydroxide, a synthetically useful heterogeneous catalyst for azide-alkyne cycloadditions in a continuous-flow reactor
SB Ötvös, Á Georgiádes, M Ádok-Sipiczki, R Mészáros, I Pálinkó, P Sipos, ...
Applied Catalysis A: General 501, 63-73, 2015
Highly Selective Continuous-Flow Synthesis of Potentially Bioactive Deuterated Chalcone Derivatives
CT Hsieh, SB Ötvös, YC Wu, IM Mándity, FR Chang, F  Fülöp
ChemPlusChem 80 (5), 859-864, 2015
Stereoselective syntheses and transformations of chiral 1, 3-aminoalcohols and 1, 3-diols derived from nopinone
Z Szakonyi, TÝ Gonda, SB Ítv, F FŘl
Tetrahedron: Asymmetry 25 (15), 1138-1145, 2014
Flow chemistry as a versatile tool for the synthesis of triazoles
SB Ötvös, F Fülöp
Catalysis Science & Technology 5 (11), 4926-4941, 2015
Heterogeneous Dipeptide-Catalyzed α-Amination of Aldehydes in a Continuous-Flow Reactor: Effect of Residence Time on Enantioselectivity
SB Ötvös, A Szloszár, IM Mándity, F Fülöp
Advanced Synthesis & Catalysis 357 (16-17), 3671-3680, 2015
Continuous-flow oxidative homocouplings without auxiliary substances: Exploiting a solid base catalyst
SB Ötvös, Á Georgiádes, R Mészáros, K Kis, I Pálinkó, F Fülöp
Journal of Catalysis 348, 90-99, 2017
Highly selective deuteration of pharmaceutically relevant nitrogen-containing heterocycles: A flow chemistry approach
SB Ötvös, IM Mándity, F Fülöp
Molecular diversity 15 (3), 605-611, 2011
Exploring New Parameter Spaces for the Oxidative Homocoupling of Aniline Derivatives: Sustainable Synthesis of Azobenzenes in a Flow System
Á Georgiádes, SB Ötvös, F Fülöp
ACS Sustainable Chemistry & Engineering 3 (12), 3388-3397, 2015
Continuous-flow azideľalkyne cycloadditions with an effective bimetallic catalyst and a simple scavenger system
SB Ötvös, G Hatoss, Á Georgiádes, S Kovács, IM Mándity, Z Novák, ...
RSC Advances 4, 46666-46674, 2014
Alkyne− Azide Cycloadditions with Copper Powder in a High-Pressure Continuous-Flow Reactor: High-Temperature Conditions versus the Role of Additives
SB Otvos, IM Mandity, L Kiss, F Fulop
Chem.-Asian J. 8 (4), 800-808, 2013
Continuous-Flow Synthesis of Deuterium-Labeled Antidiabetic Chalcones: Studies towards the Selective Deuteration of the Alkynone Core
SB Ötvös, CT Hsieh, YC Wu, JH Li, FR Chang, F Fülöp
Molecules 21 (3), 318; doi:10.3390/molecules21030318, 2016
Multigram-Scale Flow Synthesis of the Chiral Key Intermediate of (ľ)-Paroxetine Enabled by Solvent-Free Heterogeneous Organocatalysis
SB Ötvös, MA Pericas, CO Kappe
Chemical Science 10 (48), 11141-11146, 2019
Catalytic use of layered materials for fine chemical syntheses
SB Ötvös, I Pálinkó, F Fülöp
Catalysis Science & Technology 9 (1), 47-60, 2019
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