Diiodomethane: Your Essential Guide to Applications, Properties, and Synthesis Intermediates
Discover the critical role of Diiodomethane (Methylene Iodide) in organic synthesis, its unique physical properties, and its applications in various scientific fields. Learn about safe handling and its significance as a key chemical intermediate.
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Diiodomethane
Diiodomethane, also known as methylene iodide, is a versatile and valuable chemical compound. As a premier supplier in China, we offer high-purity Diiodomethane, crucial for various demanding applications in organic synthesis and beyond. Its unique properties make it an indispensable tool for researchers and manufacturers worldwide.
- Organic synthesis organic iodine compound: Diiodomethane is a key player in various organic transformations, facilitating complex molecular structures.
- Diiodomethane synthesis intermediate: Its role as an intermediate is vital for producing a range of downstream chemicals in the pharmaceutical and agrochemical sectors.
- Methylene iodide high density liquid: The exceptional density of methylene iodide makes it ideal for precise density separations and specific laboratory techniques.
- CAS 75-11-6: Recognized globally by its CAS number, Diiodomethane is a standard reagent with well-documented properties and reactivity.
Advantages Provided by the Product
Versatile Reactivity
Leverage the unique reactivity of Diiodomethane to achieve successful outcomes in complex organic synthesis, a critical aspect when focusing on organic synthesis organic iodine compound.
Precision in Applications
Utilize Diiodomethane's high density as a methylene iodide high density liquid for accurate density separations, ensuring precision in your experimental or industrial processes.
Essential Synthesis Intermediate
Rely on Diiodomethane as a vital Diiodomethane synthesis intermediate, enabling efficient production pathways for pharmaceuticals and agrochemicals.
Key Applications
Organic Synthesis
As a critical Diiodomethane synthesis intermediate, it is widely employed in various organic reactions, contributing to the creation of diverse chemical compounds.
Density Separations
The high density of Diiodomethane makes it an excellent medium for separating materials based on their densities, a crucial technique in many laboratory settings.
Refractive Index Determination
Its distinctive refractive index allows Diiodomethane to be used as an optical contact liquid for precise measurements, aiding in mineral identification and material characterization.
Laboratory Research
Widely utilized in research, Diiodomethane is a staple for chemists exploring new reactions and compounds, often sought after as a reliable organic synthesis organic iodine compound.