What Are the Key Applications of CAS 96-31-1?
The chemical compound with the CAS number 96-31-1 is commonly known as 1,3-Bis(2-chloroethyl)benzene. This compound serves multiple applications across various industries. Below, we explore the key uses and applications of CAS 96-31-1, supported by relevant statistics and insights.
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Overview of CAS 96-31-1
CAS 96-31-1 is predominantly utilized in the production of various chemical intermediates. As a chlorinated compound, it has significant relevance in both industrial and research settings due to its unique chemical properties. The compound is recognized for its role in synthesizing more complex chemical structures used in pharmaceuticals and agrochemicals.
Key Applications of CAS 96-31-1
1. Synthesis of Pharmaceutical Compounds
One of the primary applications of CAS 96-31-1 is in the synthesis of pharmaceutical agents. Its chlorinated structure allows it to act as an effective intermediate in the preparation of active pharmaceutical ingredients (APIs). Recent studies have indicated that over 25% of pharmaceutical compounds utilize chlorinated intermediates in their synthesis, emphasizing the significance of compounds like CAS 96-31-1.
2. Agrochemical Production
CAS 96-31-1 also plays a crucial role in the formulation of agrochemicals, which include pesticides and herbicides. According to market research, the global agrochemical market is projected to reach $300 billion by 2025, with chlorinated compounds being a significant contributor. Specifically, chlorinated benzene-based compounds are integral to the development of effective and targeted agrochemical products.
3. Polymer Manufacturing
The compound is widely used in the production of polymers and resins. Its ability to enhance chemical properties in various formulations makes it a favorable choice among CAS 96-31-1 manufacturers. Data shows that the global polymer market is anticipated to grow at a CAGR of 5% over the next five years, driven in part by the demand for specialized polymers utilizing chlorinated intermediates.
4. Chemical Research
In academic and industrial laboratories, CAS 96-31-1 is often employed as a building block in chemical research and development. Researchers utilize this compound to explore new synthetic pathways, contributing to advancements in material science and organic chemistry. Surveys indicate that approximately 15% of new chemical entities developed in labs involve chlorinated compounds, highlighting the relevance of CAS 96-31-1 in innovative research.
5. Industrial Applications
Beyond pharmaceuticals and agrochemicals, CAS 96-31-1 is also utilized in various industrial applications, including the manufacturing of specialty chemicals. Reports show that the specialty chemicals market is expected to exceed $1 trillion by 2026, further accentuating the importance of versatile intermediates such as CAS 96-31-1.
The Role of CAS 96-31-1 Manufacturers
With the increasing demand for CAS 96-31-1 across different sectors, manufacturers are continuously optimizing production strategies to ensure high-quality outputs. Reliable suppliers of CAS 96-31-1 are essential for industries looking to incorporate this compound into their products. As the market evolves, it's essential that manufacturers adhere to strict regulations while maintaining cost-effectiveness and delivering the necessary quality standards.
Conclusion
In summary, CAS 96-31-1 serves critical applications in pharmaceuticals, agrochemicals, polymers, and industrial manufacturing. Its versatility as a chemical intermediate underscores its significance within various industries. As the demand for innovative chemical solutions continues to rise, understanding the key applications of CAS 96-31-1 will help businesses make informed decisions and enhance their product development efforts.
For those seeking reliable suppliers and manufacturers of CAS 96-31-1, it's crucial to consider the reputation and compliance of the vendor to ensure the quality and safety of the chemical products being used.
The chemical compound with the CAS number 96-31-1 is commonly known as 1,3-Bis(2-chloroethyl)benzene. This compound serves multiple applications across various industries. Below, we explore the key uses and applications of CAS 96-31-1, supported by relevant statistics and insights.
Overview of CAS 96-31-1
CAS 96-31-1 is predominantly utilized in the production of various chemical intermediates. As a chlorinated compound, it has significant relevance in both industrial and research settings due to its unique chemical properties. The compound is recognized for its role in synthesizing more complex chemical structures used in pharmaceuticals and agrochemicals.
Key Applications of CAS 96-31-1
1. Synthesis of Pharmaceutical Compounds
One of the primary applications of CAS 96-31-1 is in the synthesis of pharmaceutical agents. Its chlorinated structure allows it to act as an effective intermediate in the preparation of active pharmaceutical ingredients (APIs). Recent studies have indicated that over 25% of pharmaceutical compounds utilize chlorinated intermediates in their synthesis, emphasizing the significance of compounds like CAS 96-31-1.
2. Agrochemical Production
CAS 96-31-1 also plays a crucial role in the formulation of agrochemicals, which include pesticides and herbicides. According to market research, the global agrochemical market is projected to reach $300 billion by 2025, with chlorinated compounds being a significant contributor. Specifically, chlorinated benzene-based compounds are integral to the development of effective and targeted agrochemical products.
3. Polymer Manufacturing
The compound is widely used in the production of polymers and resins. Its ability to enhance chemical properties in various formulations makes it a favorable choice among CAS 96-31-1 manufacturers. Data shows that the global polymer market is anticipated to grow at a CAGR of 5% over the next five years, driven in part by the demand for specialized polymers utilizing chlorinated intermediates.
4. Chemical Research
In academic and industrial laboratories, CAS 96-31-1 is often employed as a building block in chemical research and development. Researchers utilize this compound to explore new synthetic pathways, contributing to advancements in material science and organic chemistry. Surveys indicate that approximately 15% of new chemical entities developed in labs involve chlorinated compounds, highlighting the relevance of CAS 96-31-1 in innovative research.
5. Industrial Applications
Beyond pharmaceuticals and agrochemicals, CAS 96-31-1 is also utilized in various industrial applications, including the manufacturing of specialty chemicals. Reports show that the specialty chemicals market is expected to exceed $1 trillion by 2026, further accentuating the importance of versatile intermediates such as CAS 96-31-1.
The Role of CAS 96-31-1 Manufacturers
With the increasing demand for CAS 96-31-1 across different sectors, manufacturers are continuously optimizing production strategies to ensure high-quality outputs. Reliable suppliers of CAS 96-31-1 are essential for industries looking to incorporate this compound into their products. As the market evolves, it's essential that manufacturers adhere to strict regulations while maintaining cost-effectiveness and delivering the necessary quality standards.
Conclusion
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