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Author: Subject: (Lab report) Making benzyl acetate by fischer esterification
Cou
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[*] posted on 12-5-2020 at 21:53
(Lab report) Making benzyl acetate by fischer esterification


Benzyl alcohol esters are trickier to make than esters of aliphatic alcohols, due to reactivity of the aromatic ring. Benzyl alcohol is prone to polymerization and sulfonation, so it's important to use a small, catalyst amount of sulfuric acid as catalyst, or anhydrous hydrogen chloride catalyst.
Ever since I saw this chart, I've been very interested in organic chemistry for the fact that every molecule has a unique aroma, so I set out to start collecting esters by combining alcohols and carboxylic acids.


Here is a list of all the acetate esters I had in my collection before making this one, and their scents:

  1. methyl acetate (glue)
  2. ethyl acetate (fruity)
  3. propyl acetate (pears)
  4. isopropyl acetate (pears)
  5. butyl acetate (apple)
  6. sec-butyl acetate (Grape)
  7. isobutyl acetate (Cherry, like cherry-flavored starbursts)
  8. pentyl acetate (banana)
  9. isopentyl acetate (banana, like banana-flavored candies)
  10. hexyl acetate (Green, pear)
  11. heptyl acetate (rum, woody)
  12. octyl acetate (orange, mushroomy)
  13. nonyl acetate (Green, floral, mushroomy)
  14. methyl salicylate (Root beer, mint lifesavers)
  15. isopropyl salicylate (green, floral, leather)

Benzyl acetate is supposed to smell like jasmine, but I can't compare because i don't know what jasmine smells like.

It's important to use a large excess of acetic acid, and reflux for a long time, to convert as much benzyl alcohol as possible to benzyl acetate. Undergrad organic chemistry labs do fischer esterifications with short-chain alcohols that are easily extracted with water washes, but fatty alcohols are difficult to separate from their respective esters.(1)

When making aliphatic esters, the amount of sulfuric acid catalyst doesn't matter much. I usually go for a molar ratio of 0.1 moles sulfuric acid for every mole of limiting alcohol. But benzyl alcohol is sensitive to too much sulfuric acid; using a .15 molar ratio caused most of the benzyl alcohol to polymerize. A 0.05 molar ratio works.

chemicals:

  1. 10.00 mL benzyl alcohol (0.09635 mol)

    1. Boiling point: 205.3 degrees C (source: CRC Handbook of Chemistry and Physics)
    2. Density: 1.0419 g/mL
    3. Molar mass: 108.138 g/mol

  2. 30.41 mL glacial acetic acid (0.4818 mol) a 5-fold molar excess to the alcohol

    1. Molar mass: 60.052 g/mol

  3. 0.25 mL conc sulfuric acid (0.0047 moles) 0.05 molar ratio to the alcohol

Product: Benzyl acetate. BP: 215.1 degrees C. Density: 1.0550 g/mL. Molar mass: 150.174 g/mol.

Vogel's Practical Organic Chemistry contains a procedure for synthesis of benzyl acetate which does use sulfuric acid as the acid catalyst, in a similar molar ratio to what I used.
I refluxed for 14 hours in a 50 mL round bottom flask. I always get an orange mixture from this specific reaction of benzyl alcohol and acetic acid.


I poured it into a separatory funnel, and added an equal volume of distilled water to cause the ester layer to separate to the bottom. However the density was so close that an emulsion forms easily. In the future I would add salt, which would cause the ester layer to cleanly separate on top of the aqeuous layer instead.


I then washed with saturated sodium carbonate solution until it no longer bubbles on addition, then added salt to break the emulsion so the ester layer separated on top. The acid neutralization should not only extract acetic acid and sulfuric acid, but also sulfonated compounds. The crude ester was 10 mL of an orange liquid with a floral aroma.

Dried with calcium chloride

On simple distillation, 6.74 mL of colorless benzyl acetate distilled over with a boiling point of 217 deg C (compare to CRC literature value of 215.1 C), so I decided there was no need to separate unreacted benzyl alcohol with a deep eutectic mixture of glycerol and choline chloride. In the past when I tried this, there was still unreacted benzyl alcohol and the ester distilled at 185 C. the distilling flask was left with tar which is soluble in toluene and xylene.

I added the benzyl acetate to my collection of esters. It smells pleasant and flowery.


the boiling point is a little high, and i found a little harshness in the smell. Do you think it might be contaminated with sulfonated benzyl alcohol, or sulfonated benzyl acetate?

1: Pavia, Donald L.; Lampman, Gary M.; Kriz, George S. Isopentyl Acetate (Banana Oil). In A Microscale Approach to Organic Laboratory Techniques, 6th ed; Cengage Learning: Boston, 2018; pp 110.



[Edited on 13-5-2020 by Cou]

[Edited on 13-5-2020 by Cou]

[Edited on 13-5-2020 by Cou]




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[*] posted on 12-5-2020 at 22:21


I remember asking the author of that poster if he meant "benzyl" or "phenyl" when he said "benzyl (benzene ring)", and he said he couldn't remember. I don't have any benzyl alcohol, so I haven't tried making any of its esters.



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Write up your lab reports the way your instructor wants them, not the way your ex-instructor wants them.
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[*] posted on 12-5-2020 at 22:26


He meant benzyl. Benzyl acetate is known for smelling like jasmine, which is what is listed in the chart



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[*] posted on 12-5-2020 at 22:42


Thanks Cou.
I was just yesterday considering how I would teach esters to my students and thought I might video a synth as soon as I can stand up in the lab. Having just gotten an order of benzoic acid I was considering ethyl benzoate.

I know what jasmine is like. (Very fragrant.) I have no idea about ylang ylang.
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[*] posted on 12-5-2020 at 23:00


j_sum1 - natural ylang-ylang is beautiful, one of my favorites (together with pear and pineapple), I got it quite cheap here: https://fichema.cz/ylang-ylang-silice/1742-ylang-ylang-silic...
(in fact, I ordered most of essential oils they had in stock just to be more skilled in scents, it was more than 20 essential oils for approx 100 EUR)
I can't yet compare with synthetic (methyl benzoate, ethyl benzoate) - did not yet perform the synthesis, I asked for the methyl benzoate some time ago and the seller replied that he smelled it as not pleasant (I asked him to offer me other things he had in stock with pleasant scents too) and later he went in trouble so the purchase was not made




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[*] posted on 12-5-2020 at 23:09


Ylang ylang is something I actually know.....a woman I used to date in university now sells essential oils, and sent me some ylang ylang oil because she thought it would work better than antidepressants.

Sigh....yeah, I knew how to pick 'em back then......




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[*] posted on 13-5-2020 at 01:31


I wasn't scared of COVID-19 until I found out it can cause permanent loss of smell.



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[*] posted on 13-5-2020 at 03:35


Hmmm. It can cause permanent loss of all body functions. But a bit of statistical thinking helps to keep everything in some sort of perspective.


And for what I came here to write...
It looks like essence of ylangylang is on the cards then. It could be fun to do.
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[*] posted on 13-5-2020 at 04:30


I was, as usual, disappointed by benzyl acetate!
Jasmin smelling sounded very nice and since I had the reagents on hand, I tried it... and I have to say, it smelled only very faint after flowers, but the dominant notion I got from it was without a doubt definitely pear!
A ripe pear, and a good smell, but absolutely not jasmin.

You know that you can easily use a different approach to get a product free of benzyl alcohol?
I know your topic is about the fischer esterification in special, yes, just want to mention it because it is one of the few esters I ever made myself.
And I've used this method, since I wanted to see if the ester really smells like jasmin... :(

If you react the BnOH with HCl, you can use the so obtained BnCl for a reaction with sodium acetate.
You might need a PTC agent though, but thats no problem, simply a splash of fabric softener should do this: https://pubs.acs.org/doi/abs/10.1021/ed068p69
I had commercial benzyl chloride on hand so it was very simple for me.

Oh, and no worries about the lachrymatoric quality of benzyl chloride, thats not as bad.
And you don't want to create liters of the ester either.
I smelled the occasional whiff during that and this is harmless when compared to the bromoketones I've worked plenty of times, in amounts up to a few dozen grams, with.

I thought I mention this, because you might have been put off this route because of its properties as a lachrymator, but in reality it is not a bad choice to make benzyl esters.
At least lacks the issues you have with the fischer and goes better to completion.
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[*] posted on 13-5-2020 at 13:43


Yea benzyl acetate doesn't have a very interesting smell. Pear-like smell. but more floral than propyl acetate

Quote: Originally posted by karlosĀ³  
I thought I mention this, because you might have been put off this route because of its properties as a lachrymator, but in reality it is not a bad choice to make benzyl esters.
At least lacks the issues you have with the fischer and goes better to completion.


i like fischer esterification because it's a general method that works for most carboxylic acids and alcohol combinations, if you're trying to build a collection of esters like me. The method of SN2 substitution of a carboxylate ion displacing bromide, it works best for benzyl halides b/c of their reactivity, but not as well for other alkyl halides. Alkyl halides are also carcinogenic and exposure should be minimized.

Yield doesn't matter if you're building a collection of aroma compounds. but i still will consider your suggestion for benzyl alcohol esters specifically


[Edited on 14-5-2020 by Cou]




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[*] posted on 19-12-2022 at 08:47


I finished this synthesis right now. The scent of the product has maybe at most 1/4 of scent of pears or some fruit and 3/4 of something else. For pears I have n-pentyl acetate which is the best, then n-propyl acetate which is not as good as the pentyl and this benzyl acetate is even less pears-like than the n-propyl. For jasmine I have racemic methyl dihydrojasmonate but it does not have any scent for me (maybe it requires elevated temperatures, but from the bottle I do not scent anything).
So the scent of benzyl acetate is something which I do not know how to describe exactly. The pears or some fruits are only marginal, the main is something else. If this is how the jasmine scents then I will know for future.
Btw the reactant benzyl alcohol I scented also for the first time in my life and it has a nice scent of rose.

I performed the synthesis at 0,5 mol scale.

To 250 ml RBF was added:
- boiling stones (5 small glass balls)
- benzyl alcohol 0,50 mol 54,1 g (M=108,14 g/mol)
- acetic acid 0,75 mol 45,0 g (M=60,05 g/mol) = 50% excess (some of it will be lost with water distilled out of the reaction)
- 0,25 ml 96% H2SO4 (it caused some precipitate so maybe better would be dissolving H2SO4 in acetic acid and then addition to benzylalcohol), yes that's not error, only 1/4 ml = that's about 0,5 g = that's about 1/100 of molar mass of reactants, its only a catalyst, using too much would cause tar formation and side reactions especially at the end when the excess of H2SO4 would not dissolve and start to separate at the bottom)
through the condenser was added 25 ml of medicinal petrolether (hydrogenated fraction, b.p. 60-65 C = isohexanes) - also hexane, cyclohexane, benzene, heptane could be used - volume must be more than the volume of Dean-Stark trap adapter, I used 10 ml adapter + it has some volume maybe 5 ml above the 10 ml graduation.

Refluxed.

20 minutes reflux 5,0 ml water collected
35 minutes reflux 9,0 ml water collected
45 minutes reflux 12,0 ml collected, no more immiscible drops on the arm of Dean-Stark trap apparatus (see photos for explanation, that means all water was already removed), that should be 0,50 mol H2O = 9 ml of reaction water and some acetic acid distilled out with the water
Reflux continued for 60 more minutes to ensure all water removed, during this time perhaps some unreacted acetic acid collected in Dean-Stark trap which was initially in 50% excess.
When the volume was above 10 ml graduation in the adapter, part of it was drained to beaker (but not too much so more isohexanes were in reaction flask than in the trap adapter). Finally all water phase was drained to beaker and its weight was 17,7 g = 9,0 g reaction H2O and the rest 8,7 g should be acetic acid, initially an excess 0,25 mol = 15 g was used so this is fine.

Cooled to room temperature.

Using 250 ml separatory funnel:
washed 2x 100 ml water, kept upper organic layer and discarded bottom aqueous layer (note without isohexanes the ester would be bottom layer as its density is 1,05-1,06 g/ml)
washed 1x 75 ml 5 % NaHCO3, only minimal evolution of CO2
washed 1x 100 ml water

Dried with anhydrous Na2SO4 while magnetically stirring for 2 hours in a beaker closed with plastic foil + rubber band.

Decanted into 250 ml distillation RBF. Crystals of drying agent washed with little of isohexanes which was added into RBF.

Petrolether distilled out at atmospheric pressure.

Vacuum predistilled using lazy setup (without condenser) and water aspirator pump, collected 1,5 g of forerun (this should not contain isohexanes as they do not condense to liquid at this temperature and this vacuum level) - see photos for explanation of the lazy setup.

Vacuum distilled using 2-stage oil rotary vane vacuum pump (unknown level of vacuum but it reduces b.p. of 2-nitrotoluene from 222 to 70 C).
Everything collected as forerun was already removed previously in predistillation using lazy setup. Almost everything distilled at 58,5 C. Close to the end of distillation the temperature rose slightly as most of the walls of RBF was without liquid inside so was heated at higher temperature and only little of ester was at the bottom of flask. At 60,5 C the distillation was stopped by opening valve and allowing air to enter the apparatus.

Yield 67,9 g = 0,45 mol = 90% (M = 150,18 g/mol)

Remainder if distillation flask 2,5 g.

Comparison of esterification with and without of azeotropic removal of water:

Cons:
necessity to distill off the isohexane
necessity to buy isohexane and it must be hydrogenated fraction, strictly not containing alkenes as they could hydrate into alcohols on H2SO4 catalyst
necessity to buy Dean-Stark trap apparatus
maybe traces of isohexanes stay in the product but almost nothing after vacuum distillation (moreover small amounts would be lost in scent of something strong)

Pros:
better yield = quantitative as all water removed
you see that the reaction is complete in less than 1 hours and you continue reflux for 1 more hour to be sure, no need to wait half a day
esterification runs at lower temperature = reduces formation of ether / sulfuric acid ester from alcohol, no tar formation
only very little of H2SO4 is necessary, 1/100 molar ratio is enough
specific gravity of mixture is lower = organic phase stays as upper layer in separatory funnel, then is easier to drain and discard bottom layer and the upper layer stays in sep. funnel
presence of isohexanes prevents formation of emulsion = easier and faster separation of phases in sep. funnel
you can also wash a little of product adhering on walls of separatory funnel and on crystals of drying agent using a little of isohexanes (few % better yield)
during distilling off the isohexanes that removes also last traces of water present after drying with Na2SO4

Is benzylalcohol hard to esterify with acetic acid? Only a myth by my opinion.



reagents used

IMG_20221218_081308_0.jpg - 120kB



addition of H2SO4 caused some precipitation, maybe better to dissolve it in acetic acid and then add to the benzyl alcohol

IMG_20221218_083512_1.jpg - 100kB



apparatus

IMG_20221218_090014_5.jpg - 121kB



at the beginning of reflux there were 2 immiscible liquids visible at the side arm of the Dean-Stark trap apparatus

IMG_20221218_090942_1.jpg - 100kB IMG_20221218_091133_4.jpg - 96kB



collecting water in trap adapter, when it was circa 2 ml above 10 ml, part of it was drained into beaker to keep the level at 10 ml (so only a little of isohexanes stay in trap and most are in the reaction), note at the second picture the side arm of the trap adapter is still full of 2 immiscible liquids forming droplets, on the third picture the side arm of the trap is smooth, without droplets of 2 immiscible liquids, also picture 4 (smooth side arm of the adapter), anyway after that sign that all water was remove the reflux was continued for further 1 hour to remove last traces of water

IMG_20221218_091426_2.jpg - 78kB IMG_20221218_094307_8.jpg - 75kB IMG_20221218_095138_6.jpg - 73kB IMG_20221218_104950_2.jpg - 79kB



after reflux (there are 5 small amber glass balls on the bottom used as boiling stones)

IMG_20221218_104958_6.jpg - 95kB



washed with 100 ml water, 100 ml water, 75 ml 4% NaHCO3, 100 ml water

IMG_20221218_124225_2.jpg - 109kB IMG_20221218_132418_6.jpg - 101kB IMG_20221218_133738_7.jpg - 112kB IMG_20221218_142604_6.jpg - 115kB



drying with Na2SO4 for 2 hours on magnetic stirrer

IMG_20221218_175928_2.jpg - 73kB IMG_20221218_184430_2.jpg - 79kB



distilling out isohexanes at atmospheric pressure

IMG_20221219_052304_5.jpg - 123kB



predistillation at water aspirator pump vacuum level using lazy distillation setup... last traces of water and isohexanes removed... 1,5 g of forerun collected which condensed on cold glass, no need to use condenser

IMG_20221219_093511_2.jpg - 103kB
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[*] posted on 19-12-2022 at 08:59


vacuum distillation using regular vacuum distillation setup and 2-stage oil rotary vane vacuum pump

IMG_20221219_142159_2.jpg - 93kB



thanks to already removed forerun in predistillation the product started to distill at 58,5 C without forerun, during winter time when cold water is really very cold the product condensed already at the beginning of condenser, most of the product distilled at stable 58,5 C, distillation finished when reaching 60,5 C

IMG_20221219_143153_8.jpg - 81kB IMG_20221219_143246_0.jpg - 57kB IMG_20221219_143316_2.jpg - 95kB IMG_20221219_144218_7.jpg - 57kB IMG_20221219_144257_5.jpg - 78kB IMG_20221219_144631_0.jpg - 59kB IMG_20221219_144642_6.jpg - 79kB IMG_20221219_144653_5.jpg - 106kB IMG_20221219_144856_3.jpg - 84kB IMG_20221219_144904_4.jpg - 85kB IMG_20221219_145144_3.jpg - 88kB IMG_20221219_145224_9.jpg - 57kB



remainder in distillation flask 2,5 g and main fraction 67,9 g

IMG_20221219_150107_8.jpg - 80kB
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