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Publications by Swarupananda Maiti
Brief, Efficient and Highly Diastereoselective Synthesis of (±)-Pumiliotoxin C Based on the Generation of an Octahydroquinoline Precursor via a Four-Component Reaction
Chemical Communications
Surfaces
Alloys
Materials Chemistry
Coatings
Metals
Optical
Magnetic Materials
Films
Catalysis
Chemistry
Electronic
Composites
Ceramics
Related publications
A Highly Efficient and Stable Oxygen Reduction Reaction on Pt/CeOx/C Electrocatalyst Obtained via a Sacrificial Precursor Based on a Metal-Organic Framework
Applied Catalysis B: Environmental
Technology
Catalysis
Process Chemistry
Environmental Science
The Oxidative Michael Reaction. A Highly Diastereoselective Synthesis of 5-Oxocarboxylic Acid Derivatives
Chemistry Letters
Chemistry
Diastereoselective Synthesis of Fused Oxazolidines and Highly Substituted 1h-Pyrrolo [2,1-C][1,4] Oxazines via C–H Functionalization
RSC Advances
Chemistry
Chemical Engineering
Isocyanide-Based Four-Component Synthesis of Benzo[a]pyrano[2,3-C]phenazines
Synthesis
Organic Chemistry
Catalysis
Synthesis of Highly Functionalized Benzofuran-2-Carboxamides by Ugi Four-Component Reaction and Microwave-Assisted Rap–Stoermer Reaction
Synlett
Organic Chemistry
Synthesis, Crystal Structures and Properties of Ferrocenyl Bis-Amide Derivatives Yielded via the Ugi Four-Component Reaction
Molecules
Organic Chemistry
Molecular Medicine
Analytical Chemistry
Theoretical Chemistry
Pharmaceutical Science
Medicine
Drug Discovery
Chemistry
Physical
Generation of a Heteropolycyclic and Sp3-Rich Scaffold for Library Synthesis From a Highly Diastereoselective Petasis/Diels-Alder and ROM-RCM Reaction Sequence
European Journal of Organic Chemistry
Organic Chemistry
Theoretical Chemistry
Physical
Three-Component Coupling Reactions of Silyl Glyoxylates, Vinyl Grignard Reagent, and Nitroalkenes: An Efficient, Highly Diastereoselective Approach to Nitrocyclopentanols
Angewandte Chemie - International Edition
Catalysis
Chemistry
Efficient Synthesis of N-Prenylpyrroloindoline and N-Prenylindole Alkaloids Based on a New Four-Reaction Anionic Domino Process