2023 - Research.com Chemistry in Hungary Leader Award
2022 - Research.com Chemistry in Hungary Leader Award
Ferenc Fülöp spends much of his time researching Stereochemistry, Organic chemistry, Enantioselective synthesis, Amino acid and Enantiomer. His studies deal with areas such as Ring and Stereoselectivity as well as Stereochemistry. As a part of the same scientific family, Ferenc Fülöp mostly works in the field of Ring, focusing on Tautomer and, on occasion, Computational chemistry and Crystallography.
His research investigates the connection between Enantioselective synthesis and topics such as Benzaldehyde that intersect with issues in Aldehyde. The concepts of his Amino acid study are interwoven with issues in Peptide and Cyclohexene. His Enantiomer research is multidisciplinary, incorporating perspectives in Enzyme catalysis, Chromatography, Carboxylic acid and Chlorosulfonyl isocyanate.
His primary scientific interests are in Organic chemistry, Stereochemistry, Enantiomer, Amino acid and Ring. Catalysis, Enantioselective synthesis, Lipase, Alicyclic compound and Hydrolysis are the core of his Organic chemistry study. While the research belongs to areas of Stereochemistry, Ferenc Fülöp spends his time largely on the problem of Stereoselectivity, intersecting his research to questions surrounding Regioselectivity.
His studies in Enantiomer integrate themes in fields like High-performance liquid chromatography and Chromatography. As part of his studies on Amino acid, Ferenc Fülöp often connects relevant subjects like Fluorine. His research in Ring intersects with topics in Double bond and Medicinal chemistry, Tautomer.
Ferenc Fülöp mostly deals with Organic chemistry, Amino acid, Stereochemistry, Ring and Combinatorial chemistry. His study in Amino acid is interdisciplinary in nature, drawing from both Piperidine, Fluorine containing, Fluorine, Chromatography and Enantiomer. His Enantiomer study combines topics in areas such as Elution, Medicinal chemistry, Enantioselective synthesis, High-performance liquid chromatography and Hydrolysis.
The various areas that he examines in his Stereochemistry study include Enzyme catalysis, Enzyme and Benzylamine. His studies in Ring integrate themes in fields like Bicyclic molecule, Norbornene, Double bond and Alicyclic compound. He interconnects Cycloaddition, Flow chemistry and Retro-Diels–Alder reaction in the investigation of issues within Combinatorial chemistry.
Ferenc Fülöp focuses on Organic chemistry, Amino acid, Combinatorial chemistry, Enantiomer and Stereochemistry. His study in Regioselectivity, Selectivity, Catalysis, Enantioselective synthesis and Reagent is carried out as part of his Organic chemistry studies. His studies deal with areas such as Molecule, Stereocenter, Fluorine and Double bond as well as Amino acid.
His Combinatorial chemistry study combines topics in areas such as Cycloaddition, Retro-Diels–Alder reaction, Adduct, Flow chemistry and Nucleophile. His Enantiomer research includes elements of Chromatography, Elution, Medicinal chemistry, Cinchona and Hydrolysis. In his research, Norbornene and Bicyclic molecule is intimately related to Ring, which falls under the overarching field of Stereochemistry.
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Kynurenines in the CNS: recent advances and new questions.
László Vécsei;Levente Szalárdy;Ferenc Fülöp;József Toldi;József Toldi.
Nature Reviews Drug Discovery (2013)
Peptidic foldamers: Ramping up diversity
Tamás A. Martinek;Ferenc Fülöp.
Chemical Society Reviews (2012)
The chemistry of 2-aminocycloalkanecarboxylic acids.
Chemical Reviews (2001)
Application of alicyclic β-amino acids in peptide chemistry
Ferenc Fülöp;Tamás A. Martinek;Gábor K. Tóth.
Chemical Society Reviews (2006)
Synthesis of Carbocyclic and Heterocyclic β-Aminocarboxylic Acids
Loránd Kiss;Ferenc Fülöp;Ferenc Fülöp.
Chemical Reviews (2014)
Side-chain control of beta-peptide secondary structures
Tamás A. Martinek;Ferenc Fülöp.
FEBS Journal (2003)
cis‐2‐Aminocyclopentanecarboxylic Acid Oligomers Adopt a Sheetlike Structure: Switch from Helix to Nonpolar Strand
Tamás A. Martinek;Gábor K. Tóth;Elemér Vass;Miklós Hollósi.
Angewandte Chemie (2002)
Classic preconditioning decreases the harmful accumulation of nitric oxide during ischemia and reperfusion in rat hearts.
Csaba Csonka;Zoltán Szilvássy;Ferenc Fülöp;Tibor Páli.
Low temperature fullerene encapsulation in single wall carbon nanotubes: synthesis of N@C60@SWCNT
F Simon;H Kuzmany;H Rauf;T Pichler.
Chemical Physics Letters (2004)
Effects of SEA0400 and KB-R7943 on Na+/Ca2+ exchange current and L-type Ca2+ current in canine ventricular cardiomyocytes
Péter Birinyi;Károly Acsai;Tamás Bányász;András Tóth.
Naunyn-schmiedebergs Archives of Pharmacology (2005)
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