Litmus

Litmus is a water-soluble mixture of different dyes extracted from lichens, especially Roccella tinctoria. The mixture has CAS number 1393-92-6. It is often absorbed onto filter paper. The resulting piece of paper or solution with water becomes a pH indicator (one of the oldest), used to test materials for acidity. Blue litmus paper turns red under acidic conditions and red litmus paper turns blue under basic (i.e. alkaline) conditions,the color change occurring over the pH range 4.5-8.3 (at 25°C). Neutral litmus paper is purple in colour.^[1] The mixture contains 10 to 15 different dyes. The major chemical components of litmus are likely to be the same as of orcein, but in other proportions.^[2] Acid-base indicators on litmus owe their properties to 7-hydroxyphenoxazone chromophore.^[3] Some fractions of litmus were given names (erythrolitmin (or erythrolein), azolitmin, spaniolitmin, leucoorcein and leucazolitmin). Azolitmin does show nearly the same effect as litmus.^[4]

Litmus (pH indicator)
below pH 4.5		above pH 8.3
4.5	⇌	8.3

History

Litmus was used for the first time about 1300 AD by Spanish alchemist Arnaldus de Villa Nova. From the 16th century on, the blue dye was extracted from some lichens, especially in the Netherlands.

Natural sources

Litmus can be found in different species of lichens. Formerly, the dyes would be extracted from such species as Roccella tinctoria (South America), Roccella fuciformis (Angola and Madagascar), Roccella pygmaea (Algeria), Roccella phycopsis, Lecanora tartarea (Norway, Sweden), Variolaria dealbata, Ochrolechia parella, Parmotrema tinctorum and Parmelia. Currently, the main sources are Roccella montagnei (Mozambique) and Dendrographa leucophoea (California).^{[citation needed]}

Uses

The main use is to test whether the solution is acidic or alkaline. Wet litmus paper can also be used to test water-soluble gases; the gas dissolves in the water and the resulting solution colors the litmus paper. For instance, ammonia gas, which is alkaline, colors the litmus paper blue.

Other reactions can cause a color-change to litmus paper; for instance, chlorine gas turns blue litmus paper white – the litmus paper is bleached.^[5] This reaction is irreversible and therefore here the litmus is not acting as an indicator.

References

^ Römpp Chemie Lexikon - Version 1.0, Stuttgart/New York: Georg Thieme Verlag 1995 (Germany)
^ Beecken, H., E-M. Gottschalk, U. v Gizycki, H. Krämer, D. Maassen, H-G. Matthies, H. Musso, C. Rathjen, Ul. Zdhorszky. Orcein and Litmus. Biotechnic & Histochemistry 2003, 78, no. 6, pp 289-302
^ H. Musso, C. Rathjen. Orcein dyes. X. Light absorption and chromophore of litmus. Chem. Ber. 1959, 92, pp 751-753
^ E.T. Wolf: Vollständige Übersicht der Elementar-analytischen Untersuchungen organischer Substanzen, S.450-453, veröffentlicht 1846, Verlag E. Anton (Germany)
^ UCC - Chlorine

[1] Römpp Chemie Lexikon - Version 1.0, Stuttgart/New York: Georg Thieme Verlag 1995 (Germany)

[2] Beecken, H., E-M. Gottschalk, U. v Gizycki, H. Krämer, D. Maassen, H-G. Matthies, H. Musso, C. Rathjen, Ul. Zdhorszky. Orcein and Litmus. Biotechnic & Histochemistry 2003, 78, no. 6, pp 289-302

[3] H. Musso, C. Rathjen. Orcein dyes. X. Light absorption and chromophore of litmus. Chem. Ber. 1959, 92, pp 751-753

[4] E.T. Wolf: Vollständige Übersicht der Elementar-analytischen Untersuchungen organischer Substanzen, S.450-453, veröffentlicht 1846, Verlag E. Anton (Germany)

[5] UCC - Chlorine

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History

Natural sources

Uses

See also

References