Jonone
The ionone (also ionone , stress on the second syllable: Jon o ne ) form a group of substances that includes the individual substances α-, β- and γ-ionone and are derived from terpenes . The substances have a violet-like odor and are widespread natural substances found in many plants.
Occurrence
All three types of ionon have been found in the oils of various plants, especially berries , tea and tobacco . Violet oil contains approx. 22% α-ionone, β-ionone is found, for example, in henna , and tamarind contains γ-ionone. β-ionone is a breakdown product of β-carotene .
Both optical isomers [( R ) -α-ion and ( S ) -α-ion] of the α-ionone are found in nature.
The following table provides an overview of the individual substances and their properties.
| Jonone | ||||||
| Surname | α-ionone | β-ionone | γ-ionone | |||
| Structural formula |
-alpha-Ionon.svg) ( R ) -α-ionone ( S ) -α-ionone -alpha-Ionon.svg) |
 β-ionone |
-gamma-Ionon.svg) ( R ) -γ-ionone ( S ) -γ-ionone -gamma-Ionon.svg) |
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| CAS number | 127-41-3 ( rac ) 24190-29-2 ( R ) 14398-36-8 ( S ) |
79-77-6 | 24190-32-7 | |||
| 8013-90-9 (mixture) | ||||||
| PubChem | 5282108 | 638014 | 5363741 | |||
| Molecular formula | C 13 H 20 O | |||||
| Molar mass | 192.30 g mol −1 | |||||
| Physical state | liquid | |||||
| Brief description | colorless to yellowish, viscous liquid ( R ) -enantiomer: with a violet-like, raspberry-like, floral odor |
colorless liquid with a woody-violet odor |
- | |||
| density | 0.93 g cm −3 | 0.95 g cm −3 | - | |||
| Melting point | - | −49 ° C | - | |||
| boiling point | 237 ° C | 126–128 ° C (16 hPa) | - | |||
| Vapor pressure | 0.13 Pa (20 ° C) | - | - | |||
| solubility | very bad in water | - | ||||
| Optical activity | [α] D 23 : + 347 ° ( D ) [α] D 25 : 0 ° ( DL ) |
[α] D 27 : 0 ° | - | |||
| Refractive index | 1.5016 (20 ° C) ( D ) 1.5041 (20 ° C) ( DL ) |
1.5198 (20 ° C) | - | |||
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GHS labeling |
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| H and P phrases | 334 | 315 | see above | |||
| no EUH phrases | no EUH phrases | see above | ||||
| 261-342 + 311 | no P-phrases | see above | ||||
Extraction and presentation
The ionones can either be obtained from appropriate vegetable oils or produced synthetically .
In 1893 Wilhelm Haarmann developed and patented a process for the synthesis of α- and β-ionone from citral for Haarmann & Reimer . Then citral is condensed with acetone in a basic medium . This creates a pseudo-jonon .
When heated with dilute acid, this can be cyclized to a mixture of α- and β-ionone .
The ratio of α- to β-ionone changes depending on the reaction conditions. Cyclization with phosphoric acid mainly produces α-ionone, with sulfuric acid β-ionone.
By reacting pseudo-ionone with boron trifluoride and concentrated acetic acid , pure β-ionone can be produced with high yield.
The double bond in the side chain , which is normally in the trans configuration, can be converted into the cis configuration by ultraviolet radiation .
use
Jonon is used in large quantities in the fragrance industry, mostly in flower or fantasy compositions. Depending on the area of application, mixtures of isomers or individual isomers, all of which differ in their fragrance, are used here. Jonones are also used to a lesser extent for the production of flavors.
They are also used to produce the damascenones and isomethylionones ( α-isomethylionone ) that are important in perfumery .
β-ionone is also an important starting substance for the production of retinol and carotenes .
Biological importance
Ions can still be smelled in very low concentrations by humans . For β-ionone the odor threshold is 10 −7 mg per liter of air or 0.1 ppb , for ( R ) -γ-ionone at 11 ppb and for ( S ) -γ-ionone 0.07 ppb.
safety instructions
The LD 50 value (rat, oral) is 4590 mg kg −1 for α-ionone and 2920 mg kg −1 for β-ionone .
Jonons have an allergenic potential and should therefore be handled with gloves if possible.
α-ionone is also assigned to water hazard class 2 (hazardous to water).
Individual evidence
- ↑ Bernd Schäfer: Natural substances in the chemical industry. Spektrum Akademischer Verlag, 2007, ISBN 978-3-8274-1614-8 , p. 73.
- ↑ a b entry on Jonone. In: Römpp Online . Georg Thieme Verlag, accessed on May 25, 2014.
- ↑ a b c data sheet α-Jonon (PDF) from Merck , accessed on February 20, 2010.
- ↑ a b data sheet β-ionon (PDF) from Carl Roth , accessed on February 20, 2010.
- ↑ a b data sheet β-ionon from Sigma-Aldrich , accessed on February 20, 2010 ( PDF ).
- ↑ Jonone data sheet at Acros, accessed on February 20, 2010.
- ↑ a b c d e f g h CRC Handbook of Chemistry and Physics , 60th Edition, CRC Press, 1980.
- ↑ Data sheet a-Ionone from Sigma-Aldrich , accessed on May 3, 2011 ( PDF ).
- ↑ Bernd Schäfer: Natural substances in the chemical industry. Spektrum Akademischer Verlag, 2007, ISBN 978-3-8274-1614-8 , pp. 64–65.
- ↑ Elisabetta Brenna, Claudio Fuganti, Stefano Serra, Philip Kraft: Optically Active Ionones and Derivatives: Preparation and Olfactory Properties. In: Eur. J. Org. Chem. 2002, pp. 967-978.
literature
- D. Martinetz, R. Hartwig: Pocket book of fragrances. 1st edition. Verlag Harri Deutsch, Frankfurt am Main 1998, ISBN 3-8171-1539-3 .
- E. Breitmaier: Terpenes. (= Teubner study books). 1st edition. Stuttgart et al. 1999, ISBN 3-519-03548-0 .
- Entry to Jonone. In: Römpp Online . Georg Thieme Verlag, accessed on May 25, 2014.
- H. Beyer, W. Walter, W. Francke: Textbook of organic chemistry. 23rd edition. S. Hirzel Verlag, Stuttgart / Leipzig 1998, ISBN 3-7776-0808-4 .