Atomfair 2-Hydrazinopyrazine C4H6N4

Description 2-Hydrazinopyrazine (CAS No. 54608-52-5) is a high-purity heterocyclic compound with the molecular formula C4H6N4, widely utilized in pharmaceutical and agrochemical research. This compound, also known as pyrazin-2-ylhydrazine , features a pyrazine ring substituted with a hydrazine functional group, making it a versatile intermediate for synthesizing biologically active molecules. Our product is rigorously tested to ensure ??98% purity (HPLC/GC), with detailed analytical reports (COA) available upon request. Suitable for use in medicinal chemistry, catalysis, and material science applications, it is supplied in sealed, light-resistant packaging to maintain stability. Store under inert conditions at 2-8??C for optimal shelf life.

Description

2-Hydrazinopyrazine (CAS No. 54608-52-5) is a high-purity heterocyclic compound with the molecular formula C₄H₆N₄, widely utilized in pharmaceutical and agrochemical research. This compound, also known as pyrazin-2-ylhydrazine, features a pyrazine ring substituted with a hydrazine functional group, making it a versatile intermediate for synthesizing biologically active molecules. Our product is rigorously tested to ensure ??98% purity (HPLC/GC), with detailed analytical reports (COA) available upon request. Suitable for use in medicinal chemistry, catalysis, and material science applications, it is supplied in sealed, light-resistant packaging to maintain stability. Store under inert conditions at 2-8??C for optimal shelf life.

CAS No: 54608-52-5
Molecular Formula: C4H6N4
Molecular Weight: 110.12
Exact Mass: 110.059246208
Monoisotopic Mass: 110.059246208
IUPAC Name: pyrazin-2-ylhydrazine
SMILES: C1=CN=C(C=N1)NN
Synonyms: 2-hydrazinopyrazine, 689-669-3, 2-hydrazinylpyrazine, 54608-52-5, Pyrazin-2-yl-hydrazine

Application

2-Hydrazinopyrazine serves as a key building block in the synthesis of pyrazine-based pharmaceuticals, including antitubercular and anticancer agents. It is employed in the preparation of Schiff base ligands for transition metal catalysis and coordination chemistry. Researchers also utilize it to develop novel heterocyclic scaffolds for agrochemicals and functional materials.

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