Arene substitution pattern

Arene substitution patterns are part of organic chemistry IUPAC nomenclature and pinpoint the position of substituents other than hydrogen in relation to each other on an aromatic hydrocarbon.

Ortho, meta, and para substitution

Main arene substitution patterns

Ipso, meso, and peri substitution

Cine and tele substitution

Origins

The prefixes ortho, meta, and para are all derived from Greek, meaning correct, following, and beside, respectively. The relationship to the current meaning is perhaps not obvious. The ortho description was historically used to designate the original compound, and an isomer was often called the meta compound. For instance, the trivial names orthophosphoric acid and trimetaphosphoric acid have nothing to do with aromatics at all. Likewise, the description para was reserved for just closely related compounds. Thus Berzelius originally called the racemic form of aspartic acid paraaspartic acid (another obsolete term: racemic acid) in 1830. The use of the prefixes ortho, meta and para to distinguish isomers of di-substituted aromatic rings starts with Wilhelm Körner in 1867, although he applied ortho prefix to a 1,4 isomer and the meta prefix to a 1,2-isomer.[3] [4] It was the German chemist Karl Gräbe who, in 1869, first used the prefixes ortho-, meta-, para- to denote specific relative locations of the substituents on a di-substituted aromatic ring (viz, naphthalene).[5] In 1870, the German chemist Viktor Meyer first applied Gräbe's nomenclature to benzene.[6] The current nomenclature was introduced by the Chemical Society in 1879.[7]

Examples

Examples of the use of this nomenclature are given for isomers of cresol, C6H4(OH)(CH3):

There are three arene substitution isomers of dihydroxybenzene (C6H4(OH)2) the ortho isomer catechol, the meta isomer resorcinol, and the para isomer hydroquinone:

There are three arene substitution isomers of benzenedicarboxylic acid (C6H4(COOH)2) the ortho isomer phthalic acid, the meta isomer isophthalic acid, and the para isomer terephthalic acid:

These terms can also be used in six-membered heterocyclic aromatic systems such as pyridine, where the nitrogen atom is considered as one of the substituents. For example, nicotinamide and niacin, shown meta substitutions on a pyridine ring, while the cation of pralidoxime is an ortho isomer.

References

  1. IUPAC, Compendium of Chemical Terminology, 2nd ed. (the "Gold Book") (1997). Online corrected version:  (2006) "cine-substitution".
  2. IUPAC, Compendium of Chemical Terminology, 2nd ed. (the "Gold Book") (1997). Online corrected version:  (2006) "tele-substitution".
  3. Wilhelm Körner (1867) "Faits pour servir à la détermination du lieu chimique dans la série aromatique" (Facts to be used in determining chemical location in the aromatic series), Bulletins de l'Académie royale des sciences, des lettres et des beaux-arts de Belgique, 2nd series, 24 : 166-185 ; see especially p. 169. From p. 169: "On distingue facilement ces trois séries, dans lesquelles les dérivés bihydroxyliques ont leurs terms correspondants, par les préfixes ortho-, para- et mêta-." (One easily distinguishes these three series – in which the dihydroxy derivatives have their corresponding terms – by the prefixes ortho-, para- and meta-.)
  4. Hermann von Fehling, ed., Neues Handwörterbuch der Chemie [New concise dictionary of chemistry] (Braunschweig, Germany: Friedrich Vieweg und Sohn, 1874), vol. 1, p. 1142.
  5. Graebe (1869) "Ueber die Constitution des Naphthalins" (On the structure of naphthalene), Annalen der Chemie und Pharmacie, 149 : 20-28 ; see especially p. 26.
  6. Victor Meyer (1870) "Untersuchungen über die Constitution der zweifach-substituirten Benzole" (Investigations into the structure of di-substituted benzenes), Annalen der Chemie und Pharmacie, 156 : 265-301 ; see especially pp. 299-300.
  7. William B. Jensen (March 2006) "The origins of the ortho-, meta-, and para- prefixes in chemical nomenclature," Journal of Chemical Education, 83 (3) : 356.
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