Dibutoxymethane CAS 2568-90-3: Properties, Applications, and Safety of a Versatile Fine Chemical
Discover the multifaceted utility of Dibutoxymethane, a key chemical intermediate with diverse industrial applications.
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Dibutoxymethane
Dibutoxymethane, identified by CAS number 2568-90-3 and also known as butyral, stands out as a colorless and transparent liquid possessing a mild, pleasant, almost fruity aroma. Its physical and chemical characteristics make it a highly valuable compound in various industrial sectors. With a defined boiling point of 180°C, a density of 0.84 g/cm³, and a flash point of 60°C, it exhibits moderate volatility and flammability. It demonstrates slight solubility in water, a property that influences its handling and formulation in different applications.
- Explore the precise chemical properties of Dibutoxymethane (CAS 2568-90-3) for your analytical needs. This compound's defined boiling point and density make it a reliable component in various chemical processes.
- Understand the wide-ranging industrial applications of Dibutoxymethane, from specialized solvents to fuel enhancement. Its utility spans across multiple sectors, highlighting its versatility as a chemical intermediate.
- Learn about Dibutoxymethane's role as a key intermediate in organic synthesis, particularly in preparing compounds like butoxymethyltriphenylphosphonium iodide. This function is crucial for advancing complex chemical reactions and creating novel materials.
- Discover how Dibutoxymethane contributes to fuel additives, improving octane and cetane numbers while reducing harmful emissions. This application underscores its importance in the energy sector and environmental sustainability efforts.
Key Advantages
Enhanced Solubility Properties
As a versatile solvent, Dibutoxymethane is instrumental in solubilizing commercial low-density polyethylene (LDPE) samples, facilitating precise molecular weight distribution analysis via gel permeation chromatography (GPC). This capability is vital for quality control and research in the polymer industry.
Crucial Synthesis Intermediate
The compound serves as a useful key intermediate in organic synthesis, enabling the preparation of essential reagents such as butoxymethyltriphenylphosphonium iodide. This makes it indispensable for carbon homologation reactions and the development of new organic compounds.
Fuel Efficiency and Emission Reduction
When utilized as a fuel additive, Dibutoxymethane effectively increases the octane number of gasoline and the n-cetane number of diesel fuels. Furthermore, it plays a role in reducing smoke and particulate emissions, contributing to cleaner combustion and improved environmental performance.
Key Applications
Chromatographic Solvent
Dibutoxymethane's ability to solubilize polymers like LDPE makes it an excellent choice for chromatographic applications, particularly in analyzing molecular weight distribution.
Organic Synthesis
As a crucial intermediate, it facilitates the synthesis of various organic compounds, including those used in carbon homologation and the development of complex molecules.
Fuel Enhancement
Its application as a fuel additive improves fuel quality by increasing octane and cetane numbers, leading to more efficient combustion and reduced exhaust emissions.
Industrial Manufacturing
Dibutoxymethane is incorporated into the manufacturing processes of synthetic resins, antiseptics, deodorants, and fungicides, showcasing its broad utility in chemical production.