Unlocking the Potential: 5-Chlorothiophene-2-carbonyl Chloride in Modern Chemistry
A vital building block for pharmaceuticals, agrochemicals, and advanced materials, driving innovation.
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5-Chlorothiophene-2-carbonyl Chloride
This reactive acyl chloride is indispensable in the synthesis of critical compounds, most notably the anticoagulant Rivaroxaban. Its unique chemical structure and reactivity also make it a valuable component in developing advanced agrochemicals and innovative materials science applications, such as thiophene-based polymers.
- Leverage 5-chlorothiophene-2-carbonyl chloride for efficient Rivaroxaban synthesis, a key step in preventing thromboembolic disorders.
- Explore its role in agrochemical applications, contributing to the development of effective herbicides and insecticides.
- Utilize this versatile chemical intermediate in material science for creating novel thiophene-based polymers with unique electronic properties.
- Benefit from its high purity and reactivity, ensuring consistent results in complex chemical syntheses.
Key Advantages Offered
Pharmaceutical Synthesis Prowess
As a vital pharmaceutical intermediate, its contribution to the production of life-saving medications like Rivaroxaban underscores its importance in global healthcare.
Agrochemical Innovation Enabler
Its application in agrochemical synthesis aids in creating potent crop protection agents, addressing challenges in agriculture and food security.
Material Science Versatility
The unique properties of this compound facilitate the development of advanced materials, pushing the boundaries in areas like organic electronics and conductive polymers.
Key Applications
Rivaroxaban Synthesis
Crucial for the synthesis of Rivaroxaban, a direct oral anticoagulant vital for preventing blood clots and associated conditions.
Agrochemical Development
Used in the creation of herbicides and insecticides, enhancing agricultural productivity and pest management.
Material Science Research
Enables the development of thiophene-based polymers and materials with tailored electronic properties for advanced applications.
Organic Synthesis Building Block
Serves as a versatile acylating agent in organic synthesis, facilitating the creation of various functionalized molecules.