Translations:Niacin/51/en: Difference between revisions

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Message definition (Niacin)
===Industrial synthesis===
Nicotinic acid was first synthesized in 1867 by oxidative degradation of [[nicotine]] with [[potassium chromate]] and [[sulfuric acid]] — this is the origin of the name. Niacin is prepared by hydrolysis of [[nicotinonitrile]], which, as described above, is generated by oxidation of 3-picoline. Oxidation can be effected by air, but [[ammoxidation]] is more efficient. In the latter process, nicotinonitrile is produced by ammoxidation of [[3-methylpyridine]]. [[Nitrile hydratase]] is then used to catalyze nicotinonitrile to nicotinamide, which can be converted to niacin. Alternatively, ammonia, acetic acid and paraldehyde are used to make [[5-Ethyl-2-methyl-pyridine|5-ethyl-2-methyl-pyridine]], which is then oxidized to niacin. New "greener" catalysts are being tested using manganese-substituted aluminophosphates that use acetyl peroxyborate as non-corrosive oxidant, avoiding producing nitrogen oxides as do traditional ammoxidations.

Industrial synthesis

Nicotinic acid was first synthesized in 1867 by oxidative degradation of nicotine with potassium chromate and sulfuric acid — this is the origin of the name. Niacin is prepared by hydrolysis of nicotinonitrile, which, as described above, is generated by oxidation of 3-picoline. Oxidation can be effected by air, but ammoxidation is more efficient. In the latter process, nicotinonitrile is produced by ammoxidation of 3-methylpyridine. Nitrile hydratase is then used to catalyze nicotinonitrile to nicotinamide, which can be converted to niacin. Alternatively, ammonia, acetic acid and paraldehyde are used to make 5-ethyl-2-methyl-pyridine, which is then oxidized to niacin. New "greener" catalysts are being tested using manganese-substituted aluminophosphates that use acetyl peroxyborate as non-corrosive oxidant, avoiding producing nitrogen oxides as do traditional ammoxidations.

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