O-Toluenediamine CAS 26966-75-6: Properties, Applications, and Safety in Organic Synthesis
Discover the essential details of O-toluenediamine, a key intermediate for your organic synthesis needs.
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O-Toluenediamine
O-toluenediamine, identified by CAS No. 26966-75-6, is a critical compound primarily utilized in organic synthesis. Its high purity of 99.0% makes it a reliable choice for precise chemical reactions.
- Explore O-toluenediamine properties: This compound features a light gray solid appearance, offering distinct physical characteristics for handling and identification in your laboratory or production setting.
- Leverage O-toluenediamine synthesis: As a versatile intermediate, it plays a crucial role in creating complex organic molecules, facilitating advancements in various chemical sectors.
- Understand chemical purity 99.0%: The stringent purity standard ensures consistent and predictable outcomes in your chemical processes, minimizing unwanted side reactions.
- Source your O-toluenediamine CAS 26966-75-6: Easily access critical information and documentation for this essential organic synthesis intermediate.
Advantages Offered
High Purity for Reliable Results
With an assay of 99.0% minimum, this O-toluenediamine guarantees exceptional purity, crucial for achieving precise and reproducible outcomes in demanding organic synthesis applications.
Versatile Organic Synthesis Intermediate
The compound serves as a foundational building block in various chemical pathways, enabling the creation of diverse and complex organic molecules essential for research and industry.
Clear Identification and Handling
Its distinct light gray solid appearance aids in straightforward identification and safe handling, supporting efficient laboratory and industrial operations.
Key Applications
Organic Synthesis
This O-toluenediamine is a key component in various organic synthesis pathways, facilitating the creation of target molecules with high precision.
Chemical Intermediate
As a valuable chemical intermediate, it bridges raw materials to finished products, playing a vital role in the chemical manufacturing supply chain.
Research & Development
Researchers utilize this compound for its specific properties, contributing to advancements in material science, pharmaceuticals, and other chemical fields.
Industrial Processes
Its reliable purity and characteristics make it suitable for various industrial chemical processes requiring consistent performance.