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Atomfair Pyridazine C4H4N2

Description Pyridazine (CAS 289-80-5) is a heterocyclic organic compound with the molecular formula C4H4N2. As a member of the diazine family, it features a six-membered ring containing two nitrogen atoms in adjacent positions (1,2-diazine). This high-purity compound is ideal for pharmaceutical research, agrochemical development, and material science applications. Pyridazine serves as a versatile building block in medicinal chemistry due to its electron-deficient nature, enabling participation in various nucleophilic and electrophilic reactions. Our product is rigorously tested to ensure ??98% purity (GC), with batch-specific certificates of analysis available. Available in quantities from grams to kilograms, it is packaged under inert gas…

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Description

Description

Pyridazine (CAS 289-80-5) is a heterocyclic organic compound with the molecular formula C4H4N2. As a member of the diazine family, it features a six-membered ring containing two nitrogen atoms in adjacent positions (1,2-diazine). This high-purity compound is ideal for pharmaceutical research, agrochemical development, and material science applications. Pyridazine serves as a versatile building block in medicinal chemistry due to its electron-deficient nature, enabling participation in various nucleophilic and electrophilic reactions. Our product is rigorously tested to ensure ??98% purity (GC), with batch-specific certificates of analysis available. Available in quantities from grams to kilograms, it is packaged under inert gas to ensure stability and longevity. Store in a cool, dry place away from light and moisture for optimal shelf life.

  • CAS No: 289-80-5
  • Molecular Formula: C4H4N2
  • Molecular Weight: 80.09
  • Exact Mass: 80.037448136
  • Monoisotopic Mass: 80.037448136
  • IUPAC Name: pyridazine
  • SMILES: C1=CC=NN=C1
  • Synonyms: PYRIDAZINE, Orthodiazine, 1,2-Diazine, o-Diazine, pyridazin

Application

Pyridazine is widely used as a precursor in the synthesis of pharmaceuticals, including antihypertensive and anticancer agents. Its electron-deficient structure makes it valuable in the development of agrochemicals such as herbicides and fungicides. Researchers also utilize pyridazine derivatives in materials science for creating luminescent compounds and conductive polymers. Additionally, it serves as a ligand in coordination chemistry and catalysis.

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