What is the structural formula of aniline?
What is the structural formula of aniline?
C6H5NH2Aniline / Formula
Aniline, also known as aminobenzene or phenylamine, has 6 carbon (C) atoms, 7 hydrogen (H) atoms, and 1 nitrogen (N) atom in its chemical formula of C6H7N or C6H5NH2. Because aniline has an amino group in its structure, it is also an amine, hence it is classified as an aromatic amine.
What is aniline sulfate?
Description. A toxic, white powder that is prepared by heating Aniline with Sulfuric acid. A 1% solution of aniline sulfate can be used as a reagent for the detection of mechanical pulp paper.
How do you identify aniline?
Aniline appears as a yellowish to brownish oily liquid with a musty fishy odor. Melting point -6°C; boiling point 184°C; flash point 158°F. Denser than water (8.5 lb / gal) and slightly soluble in water. Vapors heavier than air.
Is aniline ionic or covalent?
Contexts in source publication. examples of monosubstituted benzenes. In an aniline molecule, because nitrogen is more electronegative than carbon, the N-C bond is a high-density 2p a -2p a covalent bond.
Is anilinium hydrogen sulfate a single crystalline material?
A novel nonlinear semiorganic optical single crystalline material, anilinium hydrogen sulfate (AHS), was blended via slow vaporization process. The AHS crystal morphology was predicted to fling light on the development rate and to reveal the prominent facets.
What is aniline sulfate used for?
Aniline sulfate was used as an internal standard in the stereoselective disposition of methamphetamine (MAP, a widely abused drug) study. Sensitive enantiomer-specific high-performance liquid chromatographic analysis of methamphetamine and amphetamine from serum using precolumn fluorescent derivatization. Journal of chromatography.
How do the cations of hydrogen sulfate interact with each other?
Each hydrogen sulfate ion bridges two cations via pairs of N—H…O hydrogen bonds and vice versa , generating two R2² (8) ring motifs (supramolecular heterosynthon). The cations also interact with one another via halogen–halogen (Br…Br) and halogen–oxygen (Br…O) interactions.