Iodotoluene Explained

Iodotoluenes are aryl iodides based on toluene in which at least one aromatic hydrogen atom is replaced with an iodine atom. They have the general formula C7H8–nIn, where n = 1–5 is the number of iodine atoms.

Monoiodotoluene

Monoiodotoluenes are iodotoluenes containing one iodine atom. There are three isomers, each with the formula C7H7I.

Properties

The isomers differ in the location of the iodine, but have the same chemical formula.

align="center" colspan="4" Monoiodotoluene isomers[1] [2] [3]
Common name
Structure
Systematic name1-iodo-2-methylbenzene1-iodo-3-methylbenzene1-iodo-4-methylbenzene
Other names2-iodotoluene3-iodotoluene4-iodotoluene
Molecular formulaC7H7I (C6H4ICH3)
Molar mass218.03 g/mol
AppearanceClear dark brown liquidwhite to yellow solid
CAS number[615-37-2][625-95-6][624-31-7]
align="center" colspan="5" Properties
Melting point35 °C (95 °F; 308 K)
Boiling point211-212 °C (412-414 °F; 484-485 K)211.5 °C (412.7 °F; 484.7 K)[4]

Benzyl iodide is an isomer, which has a iodine substituted for one of the hydrogens of toluene's methyl group, and it is sometimes named α-bromoiodine.

Preparation

A laboratory route to o- and p-iodotoluene proceeds from toluene, which is treated with a mixture of iodine and nitric acid in an electrophilic aromatic substitution. The resulting mixture of o and p-iodotoluene is then separated by fractional freezing; cooling the mixture in an ice bath results in solidification of p-iodotoluene, which can then be isolated by filtration, while the o-iodotoluene remains behind as a liquid.[5]

Uses

Iodotoluenes are precursors to many organic building blocks. For example, the methyl group of o-iodotoluene and p-iodotoluene may be oxidized using potassium permanganate to form 2-iodobenzoic acid and 4-iodobenzoic acid, respectively.[6]

See also

Notes and References

  1. 5128. 2-Iodotoluene. January 19, 2023.
  2. 12268. 3-Iodotoluene. January 19, 2023.
  3. 12207. 4-Iodotoluene. January 19, 2023.
  4. Web site: 4-Iodotoluene . . . January 31, 2023.
  5. Datta . Rasik Lal . Chatterjee . Nihar Ranjan . Halogenation. Xv. Direct Iodination of Hydrocarbons by Means of Iodine and Nitric Acid . 1917 . . 39 . 3 . 435–441 . 10.1021/ja02248a012.
  6. Varma . P. S. . Panickerp . P. B. . 1928 . Influence of substitution on the oxidation of side chains in the benzene nucleus . Proc. 15th Indian Sci. Cong..