Sciencemadness Discussion Board

Glycine from OTC materials

Arcaeca - 25-10-2019 at 23:22

I stumbled on the idea of making copper(II) glycinate as a vibrant blue pigment, which I assume would just require dissolving glycine in a Cu+2 solution. The problem then becomes getting my hands on the glycine. I mean, sure, I could just buy it, but that's no fun. Apparently it could be made by amination of chloroacetic acid with ammonia, but as chloroacetic acid obviously isn't OTC either I'd have to make it, which apparently would require chlorination (presumably with Cl2, not HCl) of acetic acid with acetic anhydride catalyst, so then I'd have to make some acetic anhydride... and it just spirals far afield from what I'm trying to do.

Is anyone aware of an easier path to glycine via OTC materials, either by extraction from protein-rich food (seeds or pork rinds?) or synthesis?

Praxichys - 26-10-2019 at 04:20

The chlorination of acetic acid photocatalytically works on paper but the mixed chloroacetic acids produced are nearly impossible to separate on the lab scale.

Your best bet for monochloroacetic acid is the hydrolysis of 1,1,2-trichloroethtlene using sulfuric acid where it can be obtained in high yield. The trichloroethylene is purchasable fairly cheaply on eBay and can also be found in a number of consumer products. This method was used industrially so there are quite a few references out there for high yielding procedures.

After that, the glycine synth is basically trivial. Simply letting a solution of monochloroacetic acid in ammonia sit around for a while does the trick with a little workup. Orgsyn has the procedure.

Arcaeca - 28-10-2019 at 21:43

I thought the canned air at my local hardware store was trichloroethylene, but it turns out to be dichloroethane. Which is a smidge different.

Do you think glycine could be synthesized by reductive amination of the aldehyde group on glyoxylic acid in the presence of ammonia? It sounds like glyoxylic acid could be made by reduction of oxalic acid, which I have on hand, although all the procedures I'm found for making glyoxylic acid from oxalic acid are electrosyntheses, which I have no experience with. But if I could make glyoxylic acid, would that even be a viable way of making glycine? Would it require a reducing agent, and if so, are there any OTC ones (i.e. not NaBH4) that would have a good shot at working? (Maybe hydrogen gas? Could bubble it into solution from an HCl/Zn hydrogen gas generator)

Arcaeca - 30-10-2019 at 11:01

Okay, I've done some more snooping and glycine via reductive amination of glyoxylic acid is a thing. Then the problem is getting my hands on glyoxylic acid.

These are all the paths to glycine I know about :




IMG_5156.JPG - 1.9MB

DraconicAcid - 30-10-2019 at 17:47

Gelatin can be hydrolyzed to give amino acids, and is 22% glycine. Separating it from the other amino acids would be a challenge, though (I found a paper that described how it can be removed from mixed amino acids by precipitating it with copper picrate, but that seems a hell of a reagent to work with).

rockyit98 - 31-10-2019 at 01:50

what about oxidation of Ethanolamine?

Praxichys - 31-10-2019 at 07:48

There are a number of problems with the aforementioned methods. Most industrially used methods do not work on the lab scale and are typically carried out under pressure, at high temperature, and over specially designed catalysts. The yields are often low, but the plant employs recycling and separation techniques to facilitate a continuous flow. The ozonalysis, for instance, also involves a hydrogenation step over a catalyst, if you read the relevant literature.

Some of these will also be difficult and impractical due to issues separating glyoxal, glyoxylic acid, and oxalic acid which tend to have many hydrates, hemiacetal dimer hydrates, etc. This mixture exists as a syrup which is a real pain to dry and/or separate anything useful from. I have attempted glyoxal synthesis via air oxidation of ethylene glycol before, which was evidently successful however the workup proved to make the process impractical over the standard route using selenous acid and paraldehyde.

I still highly recommend the chloroacetic acid method. Refluxing trichloroethylene with 75% sulfuric acid solution will do the trick, with the byproduct being HCl that can be collected. Separation of the monochloroacetic acid is trivial with distillation or acid/base workup. Letting the monochloroacetic acid sit with aqueous ammonia gives glycine in about 70% yield which is crashed out with methanol and recrystallized from the same. (Orgsyn)

You can find trichloroethylene in products like this which come in quart, gallon, or spray can form.