Tris-(morpholino)-phosphine Oxide: Properties, Applications, and Safety Insights
Discover the key characteristics and uses of Tris-(morpholino)-phosphine Oxide (TMPO), a valuable chemical compound for research.
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Tris-(morpholino)-phosphine oxide
Tris-(morpholino)-phosphine oxide, identified by CAS number 4441-12-7, is a chemical compound known for its utility in various scientific endeavors. It presents as a white crystalline powder with a molecular formula of C12H24N3O4P and a molecular weight of approximately 305.31 g/mol. Its reported purity often exceeds 98%.
- Explore the key characteristics of Tris-(morpholino)-phosphine oxide (TMPO) to understand its potential uses. The physical form of this compound is typically a white crystalline powder, making it easy to handle in laboratory settings.
- Leverage the molecular formula C12H24N3O4P for precise chemical synthesis applications. This compound's specific atomic arrangement contributes to its reactivity and suitability for complex reactions.
- Understand the importance of CAS 4441-12-7 for accurate identification and sourcing of this chemical. Accurate CAS number retrieval is crucial for ensuring the correct material is used in research and development.
- Investigate the molecular weight of 305.31 for stoichiometric calculations in organic synthesis. Precise molecular weight information is vital for quantitative analysis and reaction planning.
Key Advantages
High Purity for Reliable Research
With a purity often exceeding 98%, Tris-(morpholino)-phosphine oxide ensures dependable results in your research, minimizing interference from impurities.
Versatile Chemical Reactivity
The unique phosphine oxide structure offers diverse reactivity, making it a valuable tool in coordination chemistry and advanced organic synthesis processes.
Standardized Identification via CAS Number
The CAS number 4441-12-7 provides a universally recognized identifier, simplifying procurement and ensuring product traceability for laboratory chemical sourcing guides.
Key Applications
Coordination Chemistry
TMPO serves as a ligand in coordination chemistry, forming complexes with various metal ions, which is crucial for developing new catalytic systems.
Organic Synthesis
Its specific chemical properties make it a useful reagent or building block in complex organic synthesis pathways.
Material Science
Research into its properties may lead to applications in novel material development due to its phosphine oxide functionality.
Chemical Research & Development
As a well-defined chemical compound, it is essential for R&D activities across various chemical disciplines, supporting advancements in fine chemical industry trends.