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Related Concept Videos

Electrophilic Aromatic Substitution: Nitration of Benzene01:20

Electrophilic Aromatic Substitution: Nitration of Benzene

The nitration of benzene is an example of an electrophilic aromatic substitution reaction. It involves the formation of a very powerful electrophile, the nitronium ion, which is linear in shape. The reaction occurs through the interaction of two strong acids, sulfuric and nitric acid.
Physical Properties of Amines01:26

Physical Properties of Amines

Amines with low molecular weight are usually gaseous at room temperature, while those with high molecular weight are liquid or solids in nature. Usually, low molecular weight amines have a rotten fish-like smell. Diamines typically have a pungent smell. For instance, cadaverine and putrescine, depicted in Figure 1, are two molecules responsible for decaying tissue.
Nomenclature of Aryl and Heterocyclic Amines01:10

Nomenclature of Aryl and Heterocyclic Amines

The simplest aromatic amine is phenylamine, which contains an –NH2 functionality directly attached to an aromatic ring. The name aniline is designated for this skeleton. As shown in Figure 1, the common names of the functionalized anilines involve prefixes ortho-, meta-, and para- to indicate the substitution position. Different functionalized aniline derivatives also have notable trivial names.
Diazonium Group Substitution: –OH and –H01:19

Diazonium Group Substitution: –OH and –H

Nitrous acid, a weak acid, is prepared in situ via the reaction of sodium nitrite with a strong acid under cold conditions. This nitrous acid prepared in situ reacts with primary arylamines to form arenediazonium salts. Such reactions are known as diazotization reactions. As shown in Figure 1, the formation of arenediazonium salts begins with the decomposition of nitrous acid in an acidic solution to give nitrosonium ions.
Nomenclature of Aromatic Compounds with a Single Substituent01:23

Nomenclature of Aromatic Compounds with a Single Substituent

Benzene is the simplest aromatic hydrocarbon or arene. The IUPAC names for simple monosubstituted benzene derivatives are derived by adding the substituent's name as a prefix to the parent benzene. For example, halobenzene, where the halogen could be fluoro (F), chloro (Cl), bromo (Br), and iodo (I).
Nucleophilic Aromatic Substitution: Elimination–Addition01:11

Nucleophilic Aromatic Substitution: Elimination–Addition

Simple aryl halides do not react with nucleophiles. However, nucleophilic aromatic substitutions can be forced under certain conditions, such as high temperatures or strong bases. The mechanism of substitution under such conditions involves the highly unstable and reactive benzyne intermediate. Benzyne contains equivalent carbon centers at both ends of the triple bond, each of which is equally susceptible to nucleophilic attack. This 50–50 distribution of products is confirmed through isotopic...

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Related Experiment Video

Updated: May 31, 2026

Protocol for the Synthesis of Ortho-trifluoromethoxylated Aniline Derivatives
08:43

Protocol for the Synthesis of Ortho-trifluoromethoxylated Aniline Derivatives

Published on: January 19, 2016

N-Benzyl-aniline.

Richard Betz1, Cedric McCleland, Harold Marchand

  • 1Nelson Mandela Metropolitan University, Summerstrand Campus, Department of Chemistry, University Way, Summerstrand, PO Box 77000, Port Elizabeth 6031, South Africa.

Acta Crystallographica. Section E, Structure Reports Online
|July 15, 2011
PubMed
Summary

This study details the molecular structure of an N-alkylated aniline derivative. Crystal analysis reveals near-planar nitrogen geometry and specific aromatic ring orientations, forming chains via N-H⋯Cg interactions.

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A Direct, Regioselective and Atom-Economical Synthesis of 3-Aroyl-N-hydroxy-5-nitroindoles by Cycloaddition of 4-Nitronitrosobenzene with Alkynones
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Published on: January 21, 2020

Area of Science:

  • Organic Chemistry
  • Crystallography

Background:

  • Aniline derivatives are crucial in various chemical applications.
  • Understanding molecular geometry and intermolecular interactions is key to predicting chemical properties.

Purpose of the Study:

  • To elucidate the crystal structure and molecular geometry of a specific N-alkylated aniline derivative.
  • To investigate the intermolecular interactions governing crystal packing.

Main Methods:

  • Single-crystal X-ray diffraction was employed to determine the three-dimensional structure.
  • Analysis of bond angles, dihedral angles, and intermolecular contacts was performed.

Main Results:

  • The compound, C(13)H(13)N, exhibits a nearly planar molecular geometry at the nitrogen atom.
  • Aromatic rings intersect at angles around 81 degrees in both molecules of the asymmetric unit.
  • N-H⋯Cg interactions facilitate the formation of infinite homodromic chains along the crystallographic b axis.

Conclusions:

  • The crystal structure is stabilized by specific N-H⋯Cg interactions.
  • The observed molecular geometry and packing arrangement provide insights into the solid-state behavior of this aniline derivative.