2-Iodo-5-nitrotoluene (CAS 5326-38-5): A Key Intermediate for Advanced Chemical Applications
Unlock innovation with a versatile building block for pharmaceuticals, OLEDs, and cutting-edge organic synthesis.
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2-Iodo-5-nitrotoluene
2-Iodo-5-nitrotoluene (CAS 5326-38-5) is a critical organic compound widely utilized as a versatile building block in various chemical synthesis pathways. Its distinct structure makes it invaluable for creating complex molecules, particularly in the pharmaceutical and electronic materials sectors.
- Explore the potential of organic synthesis intermediates like 2-iodo-5-nitrotoluene for novel compound development.
- Discover its role as a pharmaceutical building block, aiding in the synthesis of active pharmaceutical ingredients.
- Leverage this nitro toluene derivative in the creation of advanced OLED materials for next-generation displays.
- Benefit from its high purity, ensuring reliable results in sensitive chemical synthesis processes.
Advantages Offered
Synthesis Versatility
As a key component in organic synthesis, 2-iodo-5-nitrotoluene facilitates a wide range of chemical transformations, enabling the creation of diverse and complex molecular structures.
Material Science Applications
Its unique properties make it a valuable precursor for OLED materials, contributing to advancements in display technology and optoelectronics.
Quality Assurance
With purity levels typically at 97% or higher, it guarantees consistent and dependable outcomes when used as chemical synthesis reagents.
Key Applications
Pharmaceutical Research
This compound serves as a crucial intermediate for pharmaceutical building blocks, supporting the development of new drug candidates through precise organic chemistry.
Electronic Materials
Its application extends to the field of OLED materials, where it acts as a precursor for creating specialized compounds used in advanced electronic devices.
Fine Chemical Synthesis
As a fine chemical intermediate, it is essential for custom synthesis projects and the production of specialized chemicals for various industrial needs.
Academic Research
Researchers utilize this compound in studies involving nitro compounds and toluene derivatives, pushing the boundaries of chemical knowledge.