Methoxetamine and NMDA

Methoxetamine has exceptionally restricted research distributed by labs as it is another exploration synthetic and few examinations have been performed. The concoction is a subordinate of ketamine and is utilized by a wide range of research facilities that are contemplating the compound.
A couple of organizations have distributed their anticipated research information including ChemAxon and ACD/Labs. A portion of the information accessible incorporate the atomic recipe of C15H21NO2, monoisotopic mass of 247.157227, and a normal mass of 247.333. Different expectations incorporate the breaking point, vapor weight, enthalpy of vaporization, streak point, list of refraction of 1.538, and a molar refractivity of 71.9±0.4 cm3. Methoxetamine has a particle number of 39, a substantial molecule tally of 18, and a ring check of 2. Under geometry distributions on methoxetamine, you will observe the base projection range to be 47.50 A2, the most extreme projection territory to be 73.75 A2, the base projection sweep to be 4.89 A, and the greatest projection span to be 6.36 A.

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Methoxetamine has very limited research published by laboratories as it is a new research chemical and few studies have been performed. The chemical is a derivative of ketamine and is used by many different laboratories that are studying the chemical.

A few agencies have published their predicted research data including ChemAxon and ACD/Labs. Some of the data available include the molecular formula of C15H21NO2, monoisotopic mass of 247.157227, and an average mass of 247.333. Other predictions include the boiling point, vapor pressure, enthalpy of vaporization, flash point, index of refraction of 1.538, and a molar refractivity of 71.9±0.4 cm3. Methoxetamine has an atom count of 39, a heavy atom count of 18, and a ring count of 2. Under geometry publications on methoxetamine, you will find the minimum projection area to be 47.50 Å2, the maximum projection area to be 73.75 Å2, the minimum projection radius to be 4.89 Å, and the maximum projection radius to be 6.36 Å.

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Methylone Analog of MDMA

Methylone was developed to be in a class of research chemicals that could be substituted for chemicals in the families of methylenedioxyphenethylamine, cathinone, amphetamine and is known to be in the group of stimulant psychoactive compounds along with being an empathogen.
Through the purchase of methylone via a compound supplier, it has been discovered that the difference between this compound for research and MDMA is a substitution on hydrogen atoms that create a ketone group. Methylone was synthesized in 1996 by Alexander Shulgin and Peyton Jacob III with the hopes of finding a better alternative for those suffering from depression than using other antidepressants on the market that have serious side effects.

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