Unlock the Potential of 3,4-Dichloro-ω-Nitrostyrene
Discover the essential properties, applications, and safe handling of this key chemical intermediate.
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3,4-Dichloro-ω-Nitrostyrene
3,4-Dichloro-ω-Nitrostyrene, identified by CAS number 18984-16-2, is a crucial compound in the field of organic chemistry. Its molecular structure, C8H5Cl2NO2, and weight of 218.04 make it a valuable precursor for a wide array of synthetic pathways. This compound serves as a fundamental building block, enabling chemists to construct more complex molecules with targeted properties.
- Explore the diverse chemical synthesis capabilities offered by 3,4-Dichloro-ω-Nitrostyrene, a versatile organic building block.
- Investigate the specific properties of 3,4-Dichloro-ω-Nitrostyrene, including its melting point and stability, crucial for successful reactions.
- Understand the importance of consulting the safety data sheet for 3,4-Dichloro-ω-Nitrostyrene to ensure safe handling and laboratory practices.
- Discover potential applications for 3,4-Dichloro-ω-Nitrostyrene in advanced chemical research and development projects.
Key Advantages
Versatile Building Block
As a pivotal organic building block, 3,4-Dichloro-ω-Nitrostyrene facilitates the creation of numerous complex organic molecules, supporting innovation in chemical synthesis.
Well-Defined Properties
With a known melting point of 93-97 °C and stable under normal conditions, this compound offers predictable behavior in various chemical reactions and processes.
Essential Chemical Intermediate
The unique structure of 3,4-Dichloro-ω-Nitrostyrene makes it an essential intermediate for synthesizing specialized chemicals and advanced materials.
Key Applications
Organic Synthesis
Leverage 3,4-Dichloro-ω-Nitrostyrene in complex organic synthesis pathways to create novel compounds and advanced materials, crucial for chemical research and development.
Chemical Research
Utilize this compound as a fundamental reagent in academic and industrial chemical research, exploring new reaction methodologies and material properties.
Building Block
Its role as a key building block enables the construction of intricate molecular architectures, essential for developing next-generation chemical products.
Intermediate for Specialty Chemicals
Serve as a vital intermediate in the production of specialty chemicals, contributing to advancements in various industrial sectors.