N-Cyclohexylaniline (CAS 1821-36-9): A Versatile Organic Intermediate for Chemical Synthesis
Discover the key properties and applications of N-Cyclohexylaniline, a vital compound in modern chemical processes.
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N-Cyclohexylaniline
N-Cyclohexylaniline (CAS 1821-36-9) is a significant organic chemical known for its role as a reaction initiator in various polymerization processes. Its precise properties make it valuable in advanced material synthesis and chemical research, contributing to the development of new plastics and rubbers.
- Explore the critical properties of N-Cyclohexylaniline CAS 1821-36-9 purity, ensuring reliable performance in your applications.
- Understand the N-Cyclohexylaniline boiling point and density to effectively manage its handling and reaction conditions.
- Leverage its utility in organic intermediate synthesis for creating complex molecules.
- Learn about the diverse cyclohexylphenylamine properties that make it a sought-after compound.
Advantages Provided by the Product
Enhanced Polymerization Control
As a key reaction initiator, N-Cyclohexylaniline contributes to controlled polymerization, yielding materials with desired characteristics. This aligns with the pursuit of innovative organic synthesis reagents.
Versatile Chemical Intermediate
The unique N-Cyclohexylaniline properties make it a versatile building block in the synthesis of various organic compounds, supporting advancements in specialty organic intermediates.
Reliable Synthesis Pathways
Utilizing N-Cyclohexylaniline in your workflow supports robust aniline derivative synthesis, ensuring consistent and high-quality outcomes for your chemical manufacturing needs.
Key Applications
Polymer Production
N-Cyclohexylaniline serves as an effective reaction initiator in the polymerization of plastics and rubbers, enhancing material properties. This is crucial for developing advanced materials in the field of industrial chemical intermediates.
Organic Synthesis
As a fundamental building block, it is instrumental in the creation of diverse organic molecules and advanced intermediates. Its use is vital for those focused on fine chemical manufacturing.
Material Science Research
Researchers utilize N-Cyclohexylaniline for its specific chemical attributes in developing novel materials and exploring new reaction pathways. This supports the growing demand for cutting-edge organic synthesis reagents.
Specialty Chemical Development
Its unique characteristics make it valuable in the development of specialized chemicals, catering to niche markets within the chemical industry. Understanding cyclohexylphenylamine properties is key here.