Hello,
I have been trying to get info about processing the new pmk offered as precursor CAS 2503-44-8 and I found something that worry me.
CAS 2503-44-8 is 3'',4''-Dihydroxyphenylacetone so the first idea could be using it as normal phenylacetone and you will obtain the product desired with the 3'',4''-Dihydroxy added right?
So imagine that you try to make the freebase using NaBH4 reduction for example in that case you will obtain:
Possibly exists a process that I don't know, because I'm not chemist, to convert it in real MDMA if someone has more info...but at the moment this is what could normally happens so be careful.
In the case that you process it for example with an alkali hydrolysis to erase the hydroxyl group you will obtain theorically P2P not MDP2P possibly I'm wrong but is what more sense has.
Thanks.
I have been trying to get info about processing the new pmk offered as precursor CAS 2503-44-8 and I found something that worry me.
CAS 2503-44-8 is 3'',4''-Dihydroxyphenylacetone so the first idea could be using it as normal phenylacetone and you will obtain the product desired with the 3'',4''-Dihydroxy added right?
So imagine that you try to make the freebase using NaBH4 reduction for example in that case you will obtain:
3,4-Dihydroxymethamphetamine(HHMA) ref: https://pubmed.ncbi.nlm.nih.gov/11559034/
Is the major metabolite of MDMA so you will obtain something similar to MDMA but not real MDMA as supposed from a PMK MDMA precursor.Possibly exists a process that I don't know, because I'm not chemist, to convert it in real MDMA if someone has more info...but at the moment this is what could normally happens so be careful.
In the case that you process it for example with an alkali hydrolysis to erase the hydroxyl group you will obtain theorically P2P not MDP2P possibly I'm wrong but is what more sense has.
Thanks.
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