DIY Sublimatory?

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I like the idea of sublimation for purification. It seems like the cold finger would have to be cleaned repeatedly to purify a moderate amount, though.

Could you make your own sublimation apparatus out of a stainless steel vacuum chamber kit like these:

I was thinking of drilling a large hole in the glass lid, and plugging it with a stainless steel bowl + gasket. Inside the bowl could be dry ice.

Alternatively, could replace the whole lid with a sheet of metal and cool the entire lid.

DMT in the bottom, pull vacuum, close valve, apply heat = sublimation? (Looking for the sublimation point if anyone knows).


I think it would work, but I'm wondering it there's a reason that lab-glass sublimatories are so small? Is it important to have a small distance between the solid and the coldfinger? Would a 3-5 gal pot be too large of a chamber?

 

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In theory could this work in reverse? Instead of having the cold finger above the solids, could the entire vacuum chamber be submerged in an ice bath, with the dmt suspended from the glass lid? I'm thinking infrared light could be used from above the glass chamber lid to catalyze the sublimation. Then vapor drops and deposits on the walls and bottom of the chilled chamber.

 

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Sublimation is optimised by minimising the distance between the impure starting material and the resublimation ("condensation") surface, otherwise too much product disappears out of the vacuum exhaust. Sublimator apparatus typically consists of a side-arm tube, with a fairly snugly-fitting cold finger. The vacuum chamber would be far too big to use in its entirety, but sublimation experiments have always appealed to me.

One further stumbling block is that DMT's melting point - or at least, some of its melting points - is/are rather on the low side for sublimation to be fully effective. Nothing wrong with a vacuum distillation, of course, although you may have to go with a Kugelrohr to avoid clogging up a condenser with solidified distillate.

 

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Thanks for your help! I've since found more threads concluding it's practically impossible to sublimate dmt without a very deep vacuum, and even then I haven't seen any proof. My idea was to draw the vac and close the valve before applying heat. The chamber is capable of holding the vacuum without the pump running, but this pump+chamber setup wouldn't be strong enough anyway. I'm guessing the strongest vacuums have to run continuously to maintain deep vac, so I guess volume/distance would be an issue then.

 

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I couldn't get this idea out of my head so I'm going to try it soon.

I have a vacuum chamber, cooler for it to sit in a cold bath, and an infrared heat lamp. I plan to tape a sheet of aluminum foil in suspension, across the chamber, near the lid. I'll sprinkle some DMT on the foil, place the lid, and pull a vacuum. Once the gauge maxes out I'll shut the valve on the chamber to maintain vacuum. Then I'll apply heat through the acrylic lid with the lamp. Idk if it will sublimate or melt first, but I think any vapor generated should condense or deposit in the cool, shaded bottom of the chamber.

I also wanted to try UV, thinking maybe the higher energy and absorption at those wavelengths could get the molecules moving. But idk what I could pull a vacuum in that passes UV besides quartz.

The vacuum chamber would be far too big to use in its entirety, but sublimation experiments have always appealed to me.

One further stumbling block is that DMT's melting point - or at least, some of its melting points - is/are rather on the low side for sublimation to be fully effective. Nothing wrong with a vacuum distillation, of course, although you may have to go with a Kugelrohr to avoid clogging up a condenser with solidified distillate.

I was reading today and got the impression that a lower melting point would be more likely to sublimate. But idk.

And I was wondering: If DMT can't sublimate, even at moderate vacuum, then it must have an incredibly low vapor pressure right? So what does it mean when people can smell it? How could that be possible if its vapor pressure is preventing sublimation.

I'm also wondering does the composition of the atmosphere affect sublimation? Maybe the natural atmosphere of nitrogen and oxygen creates a different triple point than say, a pentane vapor atmosphere?

 

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I also wanted to try UV, thinking maybe the higher energy and absorption at those wavelengths could get the molecules moving.

UV seems likely to cause decomposition since it's absorbed through electron transitions between bonding and nonbonding or antibonding orbitals in the molecule. IR interacts at the scale of atomic motion, generally bending, flexing and stretching of bonds, so this is the energy band of the EM spectrum which tends to impart momentum directly to the molecules. Microwaves would impart a rotation to rotatable dipoles, so the NMe₂ group would be affected by that.

Sublimation occurs when the vapour pressure of the solid exceeds the local saturated partial pressure of the substance in the surrounding atmosphere.

I wonder if a warm argon stream would cause significant removal of DMT from a solid sample, for redeposition on a LN₂-cooled surface? But that's not really vacuum sublimation, even if this were to be carried out at below normal atmospheric pressure.

Maybe the natural atmosphere of nitrogen and oxygen creates a different triple point than say, a pentane vapor atmosphere?

Afaik, the triple point is the triple point, but use of a carrier gas (great idea, btw) may help. I'd suggest checking the literature on that, since it's starting to sound a bit like GC minus the column substrate. Playing with that might give you enough data for a research thesis

If DMT can't sublimate, even at moderate vacuum, then it must have an incredibly low vapor pressure right? So what does it mean when people can smell it?

Very pure DMT is virtually odourless. The normal scent we associate with DMT comes from traces of indole and skatole, which smell sweet and floral at low concentrations, becoming more and more faecal as their levels increase.