Product Name:tetrazine-amine hcl salt
Chinese name: tetraazine-aminoHCL salt.
cas:1416711-59-5
Molecular formula: C9H10ClN5
Molecular weight: 22366
Structural Formula:
Appearance: Red solid.
Purity: >95%.
Storage conditions: -20°C, away from light and moisture.
Uses: For scientific research only, not for diagnosis and treatment.
Tetraazinamide hydrochloride, also known as TZ-NH2 HCl, is a compound that has attracted increasing attention in recent years due to its potential applications in various fields such as materials science, pharmaceuticals, and catalysis. Tetraazinemine hydrochloride is a salt formed between tetraazine and amine hydrochloride. It is a white to yellow powder with a melting point of about 200°C.
The main application of tetraazinamide hydrochloride salt is as a chelating agent. It can form stable complexes with metal ions, which makes it useful in a variety of metal extraction and separation processes. The compound is also used as a catalyst for the synthesis of oxazolidinones, a class of important compounds used in the production of antibiotics. In addition, tetraazinamide hydrochloride has been studied as a potential agent for a variety of diseases, including cancer and Alzheimer's disease.
The synthesis of tetraazineamine hydrochloride usually involves the reaction of tetraazine with amine hydrochloride in an organic solvent. The reaction usually takes place at room temperature and requires a catalyst such as triethylamine or pyridine. The resulting salt is then separated by filtration and dried under vacuum to remove any residual solvent.
The use of tetraazineamine hydrochloride in the synthesis of oxazolidinone involves a coupling reaction between amino alcohols and -bromide or acid chloride in the presence of salts. The resulting oxazolidinone can then be further modified to produce various drug-active compounds.
The chelating properties of tetraazineamine hydrochloride allow it to complex with transition metal ions such as copper, iron, and cobalt. These complexes have been studied for potential applications in catalysis, materials science, and medicine. For example, copper complexes of tetraazinemine hydrochloride have been shown to exhibit good catalytic activity in the oxidation of alcohols and the synthesis of oxazolidinones.
The synthesis, properties, and applications of tetraazinamide hydrochloride continue to be widely studied due to its unique chemistry and potential uses in various fields.
This article is compiled and shared with you by KLS, editor of Xi'an Kaixin Biotechnology***.