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Atomfair Sodium monoxide HNa2O+

Description Sodium Monoxide (Na2O) is a highly reactive inorganic compound widely utilized in chemical synthesis and industrial applications. This white crystalline solid exhibits strong basic properties and reacts vigorously with water to form sodium hydroxide. With a molecular formula of Na2O and CAS number 1313-59-3, it is an essential reagent in glass manufacturing, ceramics, and metallurgical processes. Our high-purity Sodium Monoxide is rigorously tested to ensure optimal performance in research and industrial settings. Available in various packaging options to suit laboratory and bulk-scale requirements. Key Features: High chemical purity (>98%) Stable under recommended storage conditions Reacts exothermically with acids and…

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Description

Description

Sodium Monoxide (Na2O) is a highly reactive inorganic compound widely utilized in chemical synthesis and industrial applications. This white crystalline solid exhibits strong basic properties and reacts vigorously with water to form sodium hydroxide. With a molecular formula of Na2O and CAS number 1313-59-3, it is an essential reagent in glass manufacturing, ceramics, and metallurgical processes. Our high-purity Sodium Monoxide is rigorously tested to ensure optimal performance in research and industrial settings. Available in various packaging options to suit laboratory and bulk-scale requirements.

Key Features:

  • High chemical purity (>98%)
  • Stable under recommended storage conditions
  • Reacts exothermically with acids and water
  • Widely used as a precursor in sodium-based compounds
  • CAS No: 1313-59-3
  • Molecular Formula: HNa2O+
  • Molecular Weight: 62.987
  • Exact Mass: 62.98227822
  • Monoisotopic Mass: 62.98227822
  • Charge: 1
  • IUPAC Name: disodium;hydroxide
  • SMILES: [OH-].[Na+].[Na+]
  • Synonyms: Sodium monoxide, Sodium oxide (NaO), 12401-86-4, EINECS 235-641-7, UN1825

Application

Sodium Monoxide is primarily employed as a strong base in organic and inorganic synthesis. It serves as a key component in the production of specialty glasses and ceramics due to its ability to modify thermal and chemical resistance. In metallurgy, it acts as a flux to lower melting points during metal refining processes. Researchers also utilize it for its desiccant properties in moisture-sensitive reactions.

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