Cas no 17116-13-1 (Titanate(2-),hexafluoro-, sodium (1:2), (OC-6-11)-)

Titanate(2-), hexafluoro-, sodium (1:2), (OC-6-11)-, is a well-defined inorganic compound consisting of a hexafluorotitanate anion paired with sodium cations in a 1:2 stoichiometric ratio. The (OC-6-11)- notation indicates its octahedral coordination geometry, which contributes to its stability and reactivity in synthetic applications. This compound is particularly valued for its strong Lewis acidity and ability to act as a fluorinating agent or catalyst in specialized reactions. Its high solubility in polar solvents and thermal stability make it suitable for use in advanced material synthesis, including ceramics and coatings. The precise structural configuration ensures consistent performance in demanding chemical processes.
Titanate(2-),hexafluoro-, sodium (1:2), (OC-6-11)- structure
17116-13-1 structure
Product Name:Titanate(2-),hexafluoro-, sodium (1:2), (OC-6-11)-
CAS No:17116-13-1
MF:F6Na2Ti
MW:207.836963653564
MDL:MFCD00014244
CID:199397
PubChem ID:44717630
Update Time:2025-06-12

Titanate(2-),hexafluoro-, sodium (1:2), (OC-6-11)- Chemical and Physical Properties

Names and Identifiers

    • Titanate(2-),hexafluoro-, sodium (1:2), (OC-6-11)-
    • disodium,hexafluorotitanium(2-)
    • Sodiumhexafluorotitanate
    • disodium hexafluorotitaniumdiuide
    • PC6514
    • SODIUM FLUOROTITANATE
    • TITANIUM SODIUM FLUORIDE
    • SODIUM TITANIUM FLUORIDE
    • disodium hexafluorotitanate
    • SODIUM HEXAFLUOROTITANATE(IV)
    • Sodium fluorotitanate(Na2TiF6)
    • SODIUM HEXAFLUOROTITANATE
    • Sodium hexafluorotitanate,98%
    • SODIUM HEXAFLUOROTITANATE 98%
    • Sodiumhexafluorotitanate(IV),98%
    • NS00087131
    • A811293
    • 17116-13-1
    • AKOS025310283
    • disodium hexafluorotitanium(2-)
    • MFCD00014244
    • DTXSID70937930
    • MDL: MFCD00014244
    • Inchi: 1S/6FH.2Na.Ti/h6*1H;;;/q;;;;;;2*+1;+4/p-6
    • InChI Key: HLJCWGPUCQTHFY-UHFFFAOYSA-H
    • SMILES: [Ti-2](F)(F)(F)(F)(F)F.[Na+].[Na+]

Computed Properties

  • Exact Mass: 207.91800
  • Monoisotopic Mass: 207.9178982g/mol
  • Isotope Atom Count: 0
  • Hydrogen Bond Donor Count: 0
  • Hydrogen Bond Acceptor Count: 0
  • Heavy Atom Count: 9
  • Rotatable Bond Count: 0
  • Complexity: 62.7
  • Covalently-Bonded Unit Count: 3
  • Defined Atom Stereocenter Count: 0
  • Undefined Atom Stereocenter Count : 0
  • Defined Bond Stereocenter Count: 0
  • Undefined Bond Stereocenter Count: 0
  • Surface Charge: 0
  • Tautomer Count: nothing
  • XLogP3: nothing
  • Topological Polar Surface Area: 0?2

Experimental Properties

  • Color/Form: Not available
  • PSA: 0.00000
  • LogP: 2.52120
  • Solubility: Not available

Titanate(2-),hexafluoro-, sodium (1:2), (OC-6-11)- Security Information

Titanate(2-),hexafluoro-, sodium (1:2), (OC-6-11)- Pricemore >>

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Additional information on Titanate(2-),hexafluoro-, sodium (1:2), (OC-6-11)-

Introduction to Titanate(2-),hexafluoro-, sodium (1:2), (OC-6-11) and Its Applications in Modern Chemistry

The compound with the CAS number 17116-13-1, specifically Titanate(2-),hexafluoro-, sodium (1:2), (OC-6-11), represents a fascinating intersection of inorganic chemistry and advanced material science. This compound, characterized by its unique hexafluoro structure and sodium coordination, has garnered significant attention in recent years due to its remarkable properties and versatile applications. Understanding its chemical structure, synthesis methods, and emerging research applications provides valuable insights into its potential role in various scientific and industrial domains.

At the core of this compound's identity is its molecular composition. The Titanate(2-) ion, a derivative of titanium, is stabilized by the presence of six fluorine atoms, forming a highly stable and electronegative environment. This configuration imparts exceptional thermal stability and chemical resistance, making it an attractive candidate for high-performance materials. The sodium counterion (Na?) further enhances the compound's solubility in polar solvents, facilitating its use in solution-based processes such as coatings and adhesives.

The (OC-6-11) moiety refers to a polyether chain with an average carbon length ranging from 6 to 11. This flexible segment not only influences the compound's solubility but also introduces a degree of elasticity, making it suitable for applications requiring both strength and flexibility. The combination of these structural features results in a material that can exhibit properties such as high thermal conductivity, low dielectric loss, and excellent corrosion resistance.

In terms of synthesis, Titanate(2-),hexafluoro-, sodium (1:2), (OC-6-11) is typically prepared through controlled reactions involving titanium precursors and fluorinating agents. The process often requires precise control over reaction conditions to ensure the formation of the desired hexafluoro complex. Recent advancements in synthetic methodologies have improved the yield and purity of this compound, making it more accessible for research and commercial applications.

One of the most compelling aspects of this compound is its application in advanced electronic materials. The high thermal stability and electrical insulation properties make it an ideal candidate for use in printed circuit boards (PCBs) and other electronic components that operate under extreme conditions. Additionally, its ability to form stable complexes with other metal ions has opened up possibilities in catalysis and material science research.

Recent research has also explored the potential of Titanate(2-),hexafluoro-, sodium (1:2), (OC-6-11) in energy storage systems. Its unique structure allows it to act as an efficient electrolyte component in lithium-ion batteries, improving charge-discharge cycles and overall energy density. Studies have shown that incorporating this compound into battery formulations can lead to significant improvements in performance metrics such as cycle life and power density.

The compound's biocompatibility has also been a subject of interest. While primarily used in industrial applications, preliminary studies suggest that certain derivatives of this compound exhibit mild biocompatibility, making them potential candidates for biomedical applications such as drug delivery systems or tissue engineering scaffolds. However, further research is needed to fully understand its biological interactions and safety profile.

In conclusion, Titanate(2-),hexafluoro-, sodium (1:2), (OC-6-11) represents a cutting-edge material with diverse applications across multiple scientific disciplines. Its unique chemical structure, synthesis methods, and emerging research findings highlight its potential as a key component in advanced electronics, energy storage systems, and even biomedical technologies. As research continues to uncover new possibilities for this compound, its role in shaping the future of material science is likely to expand significantly.

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