SEARCH Articles Figures Tables Acylation of Amines by Acid Chlorides Alkaloids derived by amination reactions Alkylation of Amines by Alkyl Halides Amination by Ammonolysis Amination by Organic Derivatives of Alkali Metal Amides Amination by Reduction Amination by substitution Amination of heterocyclic bases by alkali Amination of heterocyclic bases by alkali amides Amination, by reduction of a ketone Amination, by reduction of a ketone with hydroxylamine Amine Synthesis by A-Alkylation Amine by nucleophilic substitution Amine or Hydrazide Molecules by Carbohydrates and Glycans Amine synthesis by direct nucleophilic Amine-Catalyzed Reactions Enhanced by Acid Site on Silica-Alumina Amines By reduction of nitro compounds Amines aromatic, synthesis by Chichibabin Amines by Curtius or Hofmann rearragemen Amines by hydrogenation Amines by reduction Amines by reduction of amides Amines by reductive alkylation Amines by reductive amination Amines by reductive amination with Amines from by reductive alkylation Amines, by base induced compounds Amines, by base induced reagents Amines, separation by Hinsberg Amines, separation by Hinsberg method Amino acid by reductive amination Aminodehydroxylation - Acylation of Amines by Acids (Peptide Synthesis) Aromatic amine, by Chichibabin reactio Assay of Aromatic Amines by HPLC with Electrochemical Detection Asymmetric Cycloaddition Reactions Catalyzed by Cinchona-Based Primary Amines Asymmetric Cycloadditions Catalyzed by Quinuclidine Tertiary Amine Boranes conversion to amines by azides By Arylation of Support-Bound Amines By Direct Amination By Secondary Amines and Phenols By oxidation of amines Carbohydrates by reductive amination Carbonyl Amination Followed by Spontaneous Ring Closure Catalyzed by Secondary Amines Chiral Amine Synthesis: Methods, Developments and Applications. Edited by Thomas C. Nugent Decarboxylation catalysis by amines Determination of Polar Aromatic Amines by SPME Formation by Condensation of an Amine with a Carbonyl Compound From an Amine via C-H Activation by Zr Glycoproteins to Amine-Dendrimers by Reductive Amination Kinetics of inhibition by phenols and amines Mechanism for Amination Catalyzed by P(o-C6H4Me) Methylation of amines by reductive amination with Nitrenes = imidogens by oxidation of amines with Nucleophilic aromatic by amine nucleophiles Oxidation, by air of an amine to a nitroso compound PEGylation by Reductive Amination Periodate Oxidation Followed by Reductive Amination Periodate-Oxidized HRP to Antibodies by Reductive Amination Photoreduction by Amines Polymerization of NCAs unsubstituted at the 3-position initiated by primary and secondary amines Preparation of Amines by Ammonolysis Preparation of Amines by Reduction Preparation of Amines by Reductive Alkylation Pressor Amines by Amine Oxidase Quenching by Amines Reduction by lithium in organic amines Reduction, by amalgamated zinc and with simultaneous amination Reduction, by hydrogen and Raney with simultaneous amination Replacement of hydrogen by halogen in phenols, hydroxyphenylalkanoic acids, aryl ethers, and aromatic amines Replacement ofin fluonnated ethers, amines hydrogen by means of high Solvolysis by Ammonia and Amines Synthesis of Amines by Acylation Reduction Synthesis of Amines by Alkylation Synthesis of Amines by Reductive Amination Synthesis of dibutyl-p-tolyl-amine by aryl amination The Activation of MDH by Ammonia and Amines With Ortho Esters Followed by Ammonia or an Amine