1-Butyl-4-(4-iodophenyl)benzene
- CAS No.199982-02-0
- GradeIndustrial / Pharmaceutical
- Availability● In Stock
High-purity 1-Butyl-4-(4-iodophenyl)benzene designed for advanced liquid crystal and OLED material synthesis with guaranteed quality.
Request Bulk PricingProduct Technical Details
Product Overview
1-Butyl-4-(4-iodophenyl)benzene is a specialized organic intermediate engineered for high-performance electronic material applications. As a critical building block in the synthesis of advanced liquid crystal compounds and OLED materials, this aryl iodide derivative offers exceptional reactivity and stability. Our manufacturing process ensures consistent molecular integrity, making it an ideal choice for researchers and industrial producers focused on next-generation display technologies.
The compound features a biphenyl structure substituted with a butyl group and an iodine atom, facilitating versatile cross-coupling reactions such as Suzuki or Heck couplings. This chemical versatility allows for the precise construction of complex mesogenic molecules required in modern optoelectronic devices. We prioritize strict quality control measures to maintain batch-to-batch consistency, supporting scalable production needs for global clients.
Technical Specifications
Our production facilities adhere to rigorous international standards to deliver materials with superior purity profiles. The following table outlines the key physicochemical properties and quality specifications associated with this product. Each batch is accompanied by a comprehensive Certificate of Analysis to verify compliance with stated parameters.
| Parameter | Specification |
|---|---|
| CAS Number | 199982-02-0 |
| Molecular Formula | C16H17I |
| Molecular Weight | 336.21 g/mol |
| Appearance | White or off-white solid |
| Purity | >99.5% |
| Density | 1.4±0.1 g/cm3 |
| Boiling Point | 376.0±31.0 °C at 760 mmHg |
| Flash Point | 170.7±13.9 °C |
| Refractive Index | 1.596 |
Industrial Applications
This intermediate serves as a foundational component in the fabrication of liquid crystal displays and organic light-emitting diodes. The presence of the iodine functionality enables efficient catalytic coupling, allowing chemists to extend conjugated systems essential for tuning electronic and optical properties. It is extensively utilized in the development of high-resolution screens, flexible displays, and energy-efficient lighting solutions.
Beyond display technologies, this compound finds utility in the synthesis of specialized polymers and functional organic materials. Its stability under standard storage conditions ensures reliable performance during multi-step synthesis routes. Manufacturers value this material for its ability to integrate seamlessly into existing production workflows, reducing downtime and enhancing overall yield efficiency in complex organic synthesis projects.
Quality Assurance and Storage
We maintain a robust quality management system to guarantee the reliability of every shipment. Comprehensive testing includes chromatographic analysis and spectral verification to confirm identity and purity levels. Customers can request custom packaging solutions to suit specific logistical requirements, ensuring safe transport across international borders.
For optimal preservation, store this material in a cool, dry, and well-ventilated area away from incompatible substances and sources of ignition. Keep containers tightly closed when not in use to prevent moisture absorption or contamination. Adhering to these storage guidelines will maintain the chemical stability and performance characteristics of the product throughout its shelf life. Contact our technical support team for detailed safety data sheets and handling instructions.
