Nom du produit:Tert-butyl 1H-pyrazol-3-ylcarbamate

IUPAC Name:tert-butyl N-(1H-pyrazol-3-yl)carbamate

CAS:952674-76-9
Formule moléculaire:C8H13N3O2
Pureté:95%+
Numéro de catalogue:CM119150
Poids moléculaire:183.21

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CM119150-250mg in stock ŵƛ
CM119150-1g in stock ƃȯǶ
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Détails du produit

N° CAS:952674-76-9
Formule moléculaire:C8H13N3O2
Point de fusion:-
Code SMILES:O=C(NC1=NNC=C1)OC(C)(C)C
Densité:
Numéro de catalogue:CM119150
Poids moléculaire:183.21
Point d'ébullition:
N° Mdl:MFCD14635783
Stockage:2-8°C

Category Infos

Pyrazoles
Pyrazoles are organic compounds of the general formula C3H3N2H. It is a five-membered heterocycle consisting of three carbon atoms and two adjacent nitrogen atoms. As an H-bond-donating heterocycle, pyrazole has been used as a more lipophilic and metabolically more stable bioisomer of phenol. Pyrazoles have attracted more and more attention due to their broad spectrum of action and strong efficacy.
Pyrazone
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Product Other Information

Product Overview Tert-butyl 1H-pyrazol-3-ylcarbamate (TBPC) is a compound that has been studied for its potential applications in the fields of organic chemistry, biochemistry and pharmacology. TBPC is a member of the pyrazole family, which is a group of heterocyclic compounds with a five-membered ring structure containing three nitrogen atoms. It is also known as tert-butylcarbamoylpyrazole or tert-butylcarbamoylpyrazol-3-ylcarbamate. TBPC is a white crystalline solid, which is soluble in water and organic solvents.
Synthesis and Application TBPC can be synthesized using a variety of methods. The most common method is the reaction of tert-butyl isocyanate with 3-aminopyrazole, which produces a tert-butyl carbamate intermediate. This intermediate can then be reacted with a base such as sodium hydroxide to form TBPC. Other methods of synthesis include the reaction of tert-butyl isocyanate with 3-aminopyrazole, followed by the addition of a base such as potassium hydroxide, or the reaction of tert-butyl isocyanate with 3-aminopyrazole, followed by the addition of a base such as sodium hydroxide. TBPC has been studied for its potential applications in the fields of organic chemistry, biochemistry and pharmacology. In organic chemistry, TBPC has been used as a catalyst for the synthesis of heterocyclic compounds, such as quinolines, pyridines and pyrazoles. In biochemistry, TBPC has been used as a substrate for the synthesis of enzyme inhibitors, such as protein kinase inhibitors and cyclooxygenase inhibitors. In pharmacology, TBPC has been used as a substrate for the synthesis of drugs, such as anti-inflammatory drugs and antimalarial drugs.
Future Directions There are a number of potential future directions for the use of TBPC. It could be used in the development of new drugs and drug delivery systems, as well as in the synthesis of new enzyme inhibitors and other compounds with potential therapeutic applications. Additionally, TBPC could be used in the development of new catalysts for organic synthesis. Finally, TBPC could be used in the development of new analytical techniques, such as mass spectrometry and nuclear magnetic resonance spectroscopy.