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Author: Subject: pseudoionone by Aldol condensation of citral with acetone
Fery
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[*] posted on 27-11-2023 at 10:56
pseudoionone by Aldol condensation of citral with acetone


Various methods could be used, different ratio of reactants (ratio of excess of acetone), catalysts (Na methoxide, solid NaOH, 40% sol NaOH in water, heterogenous catalysts like CaO:MgO), temperatures, methods of purification (vacuum distillation vs. bisulphite adducts), ... Sources for studying attached at the end.

At first it is necessary to purify citral which is an aldehyde and may undergo oxidation into acid with higher b.p. It is necessary to determine b.p. of the citral at the level of vacuum of the pump as the same vacuum level will be used further. The vacuum pump used was cheap ebay chinese 2-stage oil rotary vane vacuum pump.

Isomeric (trans + cis) citral from es-drei.de (Citral Isomerengemisch min. 96%, Food Grade https://shop.es-drei.de/aldehyde/11451/citral-isomerengemisc... ) was vacuum distilled, fraction in b.p. range 60-65 C was collected. Vacuum pressure unknown (no such sensitive manometer available). 230 g of clear colorless distillate obtained and 13 g yellow remainder in the flask. It was necessary to remove especially acids from the aldehyde due to its air oxidation. 8% molar ratio of NaOH is going to be used as a catalyst (if 4% content of acids, then half of the catalyst would be inactivated and the reaction 2-times slower, more reactant unreacted = lower yield, harder separation). B.p. of the acid from citral unknown, but could be estimated approx 70 C above the citral b.p. which is different enough (e.g. octanal 171 C, octanoic acid 240 C).
The b.p. at which the citral boils under the vacuum level of the used vacuum pump should be known to later separate unreacted citral from the product.
If citral unavailable it could be vacuum distilled (or maybe steam distilled too) from essential oils of lemon myrtle, litsea cubeba, lemongras - list available here
https://en.wikipedia.org/wiki/Citral

http://www.thegoodscentscompany.com/data/rw1003432.html
citral
3,7-dimethyl-2,6-octadienal
Boiling Point: 228.00 to 229.00 °C. @ 760.00 mm Hg
Boiling Point: 103.00 to 104.00 °C. @ 12.00 mm Hg

http://www.thegoodscentscompany.com/data/rw1005841.html
pseudoionone
3,5,9-undecatrien-2-one, 6,10-dimethyl-, (3E,5E)-
Boiling Point: 114.00 to 116.00 °C. @ 2.00 mm Hg
Boiling Point: 143.00 to 145.00 °C. @ 12.00 mm Hg

boiling points of various compounds and sideproducts at atm. pressure:
diacetonealcohol b.p. 166 C but easy to wash out with water
mesityl oxide b.p. 130 C
isophorone b.p. 215 C, poorly soluble in water (1,2 g / 100 ml) could not be washed out with water
citral b.p. 225 C
pseudoionone b.p. 265 C

Calculations of reactants:
114,2 g citral = 0,75 mol (M=152,24 g/mol)
165 g acetone (molar ratio 3,8:1 acetone:citral) = 2,84 mol (M=58,08 g/mol) density 784 g/l = 210,5 ml, analytical grade, 99,6 % purity, water < 0,30 % https://sklep-chemland.pl/en/odczynniki-chemiczne/odczynniki...
2,53 g NaOH catalyst (molar ratio 1:12 NaOH:citral) = 0,063 mol (M=40,00 g/mol) dissolved in 3,8 g water, (solutio 40% NaOH + 60% H2O)

experiment

In 1 L RBF was thoroughly mixed 165 g of acetone with 6,33 g 40% NaOH and then immediately 114,2 g of citral was added at once under magnetic stirring at room temperature. Necks of flask were closed with pieces of platic sheets with rubber bands to minimize air oxidation. Then heating turned on and set to 40 C at the heating mantle. The reaction exothermically overheated further to 50 C at which it was necessary to cool it down to 40 C and then it was kept at 40 C. The reaction time was 90 minutes measured since the reaction reached 40 C for the first time. Perhaps it would be better to set heating mantle to only 30 C at the beginning and not to final 40 C, then the reaction would maybe reach the 40 C, but not more, so maybe the cooling wouldn't be necessary.

Neutralization solution of citric acid was prepared during the reaction. 0,021 mol citric acid monohydrate should be theoretically required for the neutralization of the whole NaOH. Molar mass citric acid monohydrate = 210 g/mol which is 4,4 g. An excess 7 g of the citric acid was used (because when using the minimal amount then trisodium citrate would be still weak alkaline). The acid was dissolved in cca 10-15 ml of water (the dissolution was endothermic but this small amount later easily warmed to room temperature at which it fully dissolved).

After 90 minutes the solution of citric acid was added at once under magnetic stirring to stop the reaction. The neutralization did not significantly warm the the reaction, it remained at 40 C after that. The color changed from dark red to orange.

Acetone was distilled out from the 1 L flask under magnetic stirring (without stirring there could be immiscible water with organic product at the end which could bump, stirring should avoid bumping). Heating mantle was set only upto circa 100 C (the T was not exactly measured). Most of acetone was distilled out at such temperature (some still stayed inside).
Cca 150 ml of distillate collected, no bumping observed thanks to mg. stirring.
When stopped stirring, the content in the distillation flask separated into upper organic layer and small amount of lower water phase (cca 10 ml).

The product was washed 4x with 100 ml of water in 250 ml separatory funnel. It won't be good idea to add water if there was a lot of acetone as then no water layer separation - too much of acetone would decrease density of water phase thus make its density closer to the density of organic phase, make both phases more miscible etc... that's why most of the acetone was distilled out previously.
After the last 4th washing the organic layer was let to stay in the separatory funnel overnight, a little more water separated as bottom phase.
Yield 135 g = 0,70 mol (M=192,2 g/mol), very weak lemon scent observed, it could be the scent of unreacted citral or the scent of the product (I do not know if some of them could beat the other due to scent strength, lower sensitivity threshold, ...).

It was dried with anhydrous CaCl2. Yield 131,8 g.

It was predistilled from 500 ml RBF using water aspirator pump vacuum level (circulating cold winter water), and lazy setup without condenser (only RBF as a receiver cooled with snow). Cca 10 g of forerun collected. T in distillation flask approx 120 C measured from outside using infrared thermometer (it could be +-30 C as well). That removed all the moisture present (still few drops colorless of water at the bottom of pale yellowish forerun distillate), remainders of acetone and some of the condensation products of acetone (mesityl oxide, diacetone alcohol).

To the 500 ml RBF was reattached normal vacuum distillation apparatus with Anchutz-Thiele adapter and the product was distilled using the same vacuum pump which was used for distillation of the citral.

Fractions collected, all of them pale yellowish unlike colorless citral:
95-105 C circa 25 ml
105-115 C circa 50 ml
115-135 C circa 15 ml
A dark remainder stayed in the distillation flask circa 25-50 ml.

materials to study more:
https://img.perfumerflavorist.com/files/base/allured/all/doc...
https://bpb-us-e1.wpmucdn.com/sites.ucsc.edu/dist/9/291/file...
https://sci-hub.ee/10.1021/ja01666a017
https://www.youtube.com/watch?v=i5-EXDoV1vM
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Fery
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[*] posted on 27-11-2023 at 10:58


wow the thread id is 160000
OK photos.
Distillation of citral

IMG_20231126_094130_0.jpg - 60kB IMG_20231126_100217_6.jpg - 84kB IMG_20231126_100231_9.jpg - 55kB IMG_20231126_103302_3.jpg - 78kB IMG_20231126_103308_9.jpg - 58kB
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Fery
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[*] posted on 27-11-2023 at 11:13


apparatus and the start of the reaction

IMG_20231126_150244_6.jpg - 80kB



the start of the reaction visible very soon - not crystal clear anymore

IMG_20231126_150250_1.jpg - 58kB



reaction progressed further

IMG_20231126_151005_6.jpg - 80kB



near the end of the reaction

IMG_20231126_162525_8.jpg - 81kB



reaction stopped after neutralization of the NaOH with citric acid and changed color

IMG_20231126_164221_9.jpg - 66kB



acetone distilled out and the remainder in the distillation flask, little of water bottom phase visible

IMG_20231126_171022_3.jpg - 96kB IMG_20231126_185547_8.jpg - 58kB



washing with water in separatory funnel

IMG_20231126_194734_5.jpg - 78kB



lazy predistillation using water aspirator pump vacuum level for degassing, removing water, acetone, low boiling sideproducts..., few drops of water visible in the condensate

IMG_20231127_113446_3.jpg - 80kB IMG_20231127_121229_8.jpg - 21kB



regular vacuum distillation using the same vacuum pump used for citral distillation

IMG_20231127_163237_5.jpg - 91kB IMG_20231127_164304_9.jpg - 36kB IMG_20231127_164346_0.jpg - 53kB IMG_20231127_164651_3.jpg - 62kB IMG_20231127_165237_5.jpg - 51kB IMG_20231127_165245_6.jpg - 43kB IMG_20231127_165411_7.jpg - 61kB IMG_20231127_165416_1.jpg - 52kB IMG_20231127_165645_0.jpg - 60kB IMG_20231127_165739_5.jpg - 35kB IMG_20231127_165756_9.jpg - 55kB IMG_20231127_170516_1.jpg - 55kB IMG_20231127_170525_3.jpg - 79kB IMG_20231127_172252_7.jpg - 58kB
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Bedlasky
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[*] posted on 2-1-2024 at 07:30


Again, nice work Fery!
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