Tri(Ethylene Glycol) DI-P-Toluenesulfonate: Synthesis Applications and Properties of a Versatile Chemical
Exploring the essential role of Tri(Ethylene Glycol) DI-P-Toluenesulfonate in advanced organic synthesis and its key chemical characteristics.
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Tri(Ethylene Glycol) DI-P-Toluenesulfonate
This versatile compound, identified by CAS number 19249-03-7, is a crucial building block in complex organic synthesis. Its high purity and specific chemical structure make it invaluable for researchers and manufacturers in developing advanced materials and specialized chemicals. The compound's characteristics contribute to efficient and reliable synthesis pathways.
- Discover the detailed Tri(Ethylene Glycol) DI-P-Toluenesulfonate applications in cutting-edge organic synthesis.
- Understand the key chemical intermediate properties that make this compound essential for various reactions.
- Learn about the CAS 19249-03-7 uses, focusing on its role as a reliable organic synthesis reagent.
- Explore the typical white powder form and its implications for handling and application in specialized chemical processes.
Advantages Offered
High Synthesis Purity
With an assay of ≥98.0%, this chemical intermediate ensures high-quality outcomes in organic synthesis, minimizing side reactions and maximizing product yield.
Versatile Reactivity
The tosylate groups provide excellent leaving group capabilities, facilitating nucleophilic substitution reactions and enabling the creation of diverse molecular structures.
Strategic Intermediate
As a key organic synthesis reagent, it is vital for constructing complex molecules, contributing to advancements in chemical research and material science.
Key Applications
Specialty Chemical Synthesis
The compound is instrumental in the synthesis of specialized organic molecules, serving as a critical component in the creation of advanced chemical products and novel materials.
Organic Reagent
Its role as an organic synthesis reagent highlights its utility in facilitating complex chemical transformations, crucial for pharmaceutical and material science research.
Glycol Ether Derivatives
This compound fits within the broader category of glycol ether derivatives, offering specific properties valuable in various chemical applications and research.
Chemical Research Materials
It serves as a fundamental material in chemical research, enabling scientists to explore new reaction pathways and synthesize compounds with tailored properties.