Atomfair Sodium titanate Na2O3Ti

Description Sodium Titanate (Na2O3Ti) is an inorganic compound with a well-defined crystalline structure, widely utilized in advanced material science and industrial applications. This high-purity compound exhibits excellent thermal stability and ion-exchange properties, making it suitable for catalysis, energy storage, and environmental remediation. Available as a fine powder or tailored particulate forms, our Sodium Titanate is synthesized under stringent quality controls to ensure consistency in composition and performance. Its unique layered structure enables efficient intercalation of ions, beneficial for battery technologies and wastewater treatment. Ideal for researchers and engineers seeking reliable materials for next-generation applications.

Description

Sodium Titanate (Na₂O₃Ti) is an inorganic compound with a well-defined crystalline structure, widely utilized in advanced material science and industrial applications. This high-purity compound exhibits excellent thermal stability and ion-exchange properties, making it suitable for catalysis, energy storage, and environmental remediation. Available as a fine powder or tailored particulate forms, our Sodium Titanate is synthesized under stringent quality controls to ensure consistency in composition and performance. Its unique layered structure enables efficient intercalation of ions, beneficial for battery technologies and wastewater treatment. Ideal for researchers and engineers seeking reliable materials for next-generation applications.

CAS No: 12034-36-5
Molecular Formula: Na2O3Ti
Molecular Weight: 141.845
Exact Mass: 141.9122231
Monoisotopic Mass: 141.9122231
IUPAC Name: disodium;oxygen(2-);titanium(4+)
SMILES: [O-2].[O-2].[O-2].[Na+].[Na+].[Ti+4]
Synonyms: Sodium titanium oxide (Na2TiO3), 12034-34-3, Disodium titanate, Sodium titanium oxide (Na2Ti4O9), EINECS 235-622-3

Application

Sodium Titanate is extensively used as an ion-exchange material for the selective removal of heavy metals and radioactive ions from wastewater. Its layered structure makes it a promising candidate for electrode materials in sodium-ion batteries, offering high capacity and stability. Additionally, it serves as a precursor for synthesizing titanium-based ceramics and catalysts in organic transformations.

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