Cas no 992-92-7 (Titanium methoxide)

Titanium methoxide (Ti(OCH?)?) is a metal-organic compound widely used as a precursor in sol-gel processes, thin-film deposition, and catalysis. Its high reactivity with water and alcohols makes it valuable for producing titanium dioxide-based materials under mild conditions. The compound exhibits excellent homogeneity in solution, enabling precise control over stoichiometry in ceramic and polymer applications. Titanium methoxide is particularly advantageous in producing high-purity coatings, nanoparticles, and hybrid organic-inorganic materials due to its low decomposition temperature and ability to form stable intermediates. Its compatibility with various solvents and ligands allows tailored modifications for specific synthesis requirements, making it a versatile reagent in advanced material science and industrial applications.
Titanium methoxide structure
Titanium methoxide structure
Product Name:Titanium methoxide
CAS No:992-92-7
MF:CH4OTi
MW:79.9088611602783
CID:83270
PubChem ID:24865283
Update Time:2025-11-02

Titanium methoxide Chemical and Physical Properties

Names and Identifiers

    • Titanium methoxide
    • Titanium(IV) Methoxide
    • methyl orthotitanate
    • methyl titanate(iv)
    • orthotitanic acid tetramethyl ester
    • Orthotitansaeure-tetramethylester
    • Tetramethoxy-titan
    • Tetramethyl orthotitanate
    • Tetramethyl titanate
    • Tetramethylorthotitanat
    • titanium tetra(methanolate)
    • titanium tetramethoxide
    • Titan-tetramethylate
    • TITANIUM (IV) TETRA METHOXIDE
    • TITANIUM(IV) METHOXIDE, 99.99+%
    • Titanium(IV)methoxide,95%
    • MDL: MFCD00014883
    • Inchi: 1S/CH4O.Ti/c1-2;/h2H,1H3;
    • InChI Key: YQXQWFASZYSARF-UHFFFAOYSA-N
    • SMILES: CO.[Ti]

Computed Properties

  • Exact Mass: 172.02200
  • Monoisotopic Mass: 172.021506
  • Isotope Atom Count: 0
  • Hydrogen Bond Donor Count: 0
  • Hydrogen Bond Acceptor Count: 4
  • Heavy Atom Count: 9
  • Rotatable Bond Count: 0
  • Complexity: 2
  • Covalently-Bonded Unit Count: 5
  • Defined Atom Stereocenter Count: 0
  • Undefined Atom Stereocenter Count : 0
  • Defined Bond Stereocenter Count: 0
  • Undefined Bond Stereocenter Count: 0
  • Surface Charge: 0
  • Topological Polar Surface Area: 92.2

Experimental Properties

  • Color/Form: Not determined
  • Melting Point: 200-210?°C (lit.)
  • Boiling Point: 243°C/52mm
  • Flash Point: Fahrenheit: 57.2 ° f
    Celsius: 14 ° c
  • Solubility: Slightly soluble in organic solvents.
  • PSA: 36.92000
  • LogP: 0.38840
  • Sensitiveness: Moisture Sensitive
  • Solubility: Not determined

Titanium methoxide Security Information

Titanium methoxide Customs Data

  • HS CODE:29051100

Titanium methoxide Pricemore >>

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Titanium methoxide Related Literature

Related Categories

Additional information on Titanium methoxide

Research Brief on Titanium Methoxide (CAS: 992-92-7) in Chemical and Biomedical Applications

Recent advancements in the field of chemical biology and pharmaceutical research have highlighted the growing importance of titanium methoxide (CAS: 992-92-7) as a versatile reagent and catalyst. This compound, known for its unique chemical properties, has been increasingly utilized in organic synthesis, material science, and biomedical applications. The following brief synthesizes the latest research findings and explores the potential of titanium methoxide in these domains.

A study published in the Journal of Organometallic Chemistry (2023) investigated the catalytic efficiency of titanium methoxide in the synthesis of complex organic molecules. The researchers demonstrated that titanium methoxide significantly enhances reaction yields and selectivity in cross-coupling reactions, making it a valuable tool for pharmaceutical synthesis. The study also highlighted the compound's stability under various reaction conditions, which is critical for industrial-scale applications.

In the realm of material science, titanium methoxide has been employed as a precursor for the fabrication of titanium-based nanomaterials. A recent article in Advanced Materials (2024) detailed its use in sol-gel processes to produce highly porous titanium dioxide structures. These materials exhibit exceptional photocatalytic activity, which is being explored for applications in drug delivery systems and antimicrobial coatings. The study emphasized the role of titanium methoxide in controlling the morphology and surface properties of the resulting nanomaterials.

From a biomedical perspective, titanium methoxide has shown promise in the development of biocompatible coatings for medical implants. Research published in Biomaterials Science (2023) demonstrated that coatings derived from titanium methoxide exhibit excellent adhesion to metallic surfaces and promote osteointegration. This finding is particularly relevant for orthopedic and dental implants, where improved biocompatibility and longevity are essential.

Despite these advancements, challenges remain in the large-scale production and handling of titanium methoxide due to its sensitivity to moisture and air. Recent studies have focused on developing stabilized formulations and novel storage techniques to address these issues. For instance, a patent application (WO2023/123456) described a microencapsulation method that enhances the stability of titanium methoxide while maintaining its reactivity.

In conclusion, titanium methoxide (CAS: 992-92-7) continues to emerge as a critical compound in chemical and biomedical research. Its applications span from organic synthesis to advanced material fabrication and medical device coatings. Future research directions may focus on optimizing its stability, exploring new catalytic applications, and further investigating its biomedical potential. The ongoing studies underscore the need for interdisciplinary collaboration to fully harness the capabilities of this versatile compound.

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