Bis(4-aminophenoxy)dimethylsilane
- CAS No.1223-16-1
- GradeIndustrial / Pharmaceutical
- Availability● In Stock
High-purity Bis(4-aminophenoxy)dimethylsilane (CAS 1223-16-1) designed for polyimide synthesis. Available in bulk industrial packaging with certified quality assurance.
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Product Overview
Bis(4-aminophenoxy)dimethylsilane is a specialized organosilicon intermediate engineered for high-performance polymer applications. Identified by CAS number 1223-16-1, this compound serves as a critical building block in the synthesis of advanced polyimide materials. Our manufacturing process ensures consistent molecular structure and high chemical purity, making it an ideal choice for researchers and industrial producers focused on thermally stable polymers.
The unique chemical structure of this silane diamine introduces flexibility and thermal resistance into polymer chains. It is particularly valued in the production of high-temperature resins and films where mechanical stability under stress is paramount. We maintain strict quality control protocols to guarantee that every batch meets rigorous international standards for chemical intermediates.
Key Specifications
| Parameter | Specification |
|---|---|
| CAS Number | 1223-16-1 |
| Chemical Name | Bis(4-aminophenoxy)dimethylsilane |
| Appearance | Amber or brown liquid |
| Purity (Content) | 97% minimum |
| Storage Temperature | 25℃ or below |
| Shelf Life | 12 months from production date |
| Safety Classification | Non-dangerous goods |
Industrial Applications
This intermediate is primarily utilized in the fabrication of polyimide materials, which are essential in aerospace, electronics, and advanced coating industries. The incorporation of Bis(4-aminophenoxy)dimethylsilane into polymer backbones enhances the flexibility of the resulting film without compromising thermal stability. This balance is crucial for applications requiring durable materials that can withstand extreme environmental conditions.
Additionally, this compound supports the development of specialized resins used in microelectronics packaging. Its reactivity allows for precise control during polymerization, enabling manufacturers to tailor material properties such as glass transition temperature and tensile strength. Our technical team can provide guidance on optimal synthesis routes to maximize performance in your specific formulation.
Quality Assurance and Packaging
We understand that consistency is vital for industrial production. Each shipment is accompanied by a Certificate of Analysis (COA) verifying purity and physical properties. For laboratory-scale research, we offer customized packaging in fluoride bottles ranging from 100ml to 1000ml. For large-scale manufacturing, standard industrial packaging includes 25L plastic drums, 210L iron drums, or 1000L IBC containers to suit your logistical requirements.
All products are classified as non-dangerous goods, simplifying international shipping and handling procedures. We recommend storing the material in its original unopened container at temperatures below 25℃ to maintain stability. The shelf life is one year from the date of production. Expired products should undergo quality testing before use to ensure they meet performance specifications. Partner with us for reliable supply chain solutions and premium chemical intermediates.
