12137-20-1 | Titanium monoxide

Packsize	Purity	Availability	Price	Discounted Price
1g	99%	in stock	$25.00	$18.00
5g	99%	in stock	$65.00	$46.00
25g	99%	in stock	$94.00	$66.00
100g	99%	in stock	$268.00	$188.00

Description

• Catalog Number: AE33327
• Chemical Name: Titanium monoxide
• CAS Number: 12137-20-1
• Molecular Formula: OTi
• Molecular Weight: 63.8664
• MDL Number: MFCD00036279
• SMILES: O=[Ti]

Upstream Synthesis Route

Titanium(II) oxide, also known as titanium monoxide or titanyl, is a valuable compound extensively used in chemical synthesis due to its unique properties and versatile applications. As a transition metal oxide, titanium(II) oxide exhibits distinct catalytic properties that make it an essential component in various chemical reactions and processes.One of the significant applications of titanium(II) oxide in chemical synthesis is its role as a catalyst in organic transformations. With its ability to facilitate reactions such as hydrogenation, dehydrogenation, and coupling reactions, titanium(II) oxide serves as a powerful tool in the synthesis of organic compounds, pharmaceuticals, and specialty chemicals. Its catalytic activity stems from the presence of titanium ions in a low oxidation state, enabling it to participate in redox reactions and form reactive intermediates crucial for desired chemical transformations.Furthermore, titanium(II) oxide is utilized in the production of inorganic materials, including metal oxides, ceramics, and semiconductors. Its unique electronic structure and bonding characteristics enable the controlled growth and customization of materials with specific properties, such as optical transparency, electrical conductivity, and thermal stability. By incorporating titanium(II) oxide into chemical synthesis protocols, researchers can tailor the composition and structure of advanced materials with enhanced performance and functionality.In summary, titanium(II) oxide plays a pivotal role in chemical synthesis by acting as a versatile catalyst and functional material precursor. Its ability to facilitate diverse reactions and control the properties of synthesized materials underscores its significance in advancing the fields of organic and inorganic chemistry, materials science, and nanotechnology.