1,4-Bis(dimethylchlorosilyl)benzene: A Versatile Silane Intermediate for Advanced Materials
Explore the key properties and applications of this crucial organosilicon compound.
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1,4-Bis(dimethylchlorosilyl)benzene
1,4-Bis(dimethylchlorosilyl)benzene is a vital organosilicon compound recognized for its role as a chemical reagent and intermediate. Its chemical structure and reactivity make it indispensable in the creation of novel and advanced functional materials, underpinning innovation across various industries. This compound is a cornerstone for developing next-generation materials with tailored properties.
- Unlock new possibilities in materials science with our high-purity 1,4-Bis(dimethylchlorosilyl)benzene CAS 1078-97-3, a critical building block for innovative applications.
- Discover the unique chemical reagent organosilicon properties that enable complex molecular architectures and advanced material synthesis.
- Leverage the power of dimethylchlorosilyl benzene properties to achieve superior performance and functionality in your end products.
- Explore the frontiers of synthesis of advanced functional materials, where this silane intermediate plays a pivotal role.
Key Advantages
High Purity and Reactivity
Benefit from the consistent high purity and predictable reactivity of our dimethylchlorosilyl benzene properties, ensuring reliable results in your synthesis processes.
Versatile Chemical Intermediate
Utilize this compound as a versatile chemical reagent organosilicon, opening doors to a wide range of applications in organic chemistry and material science.
Foundation for Advanced Materials
This silane intermediate for materials is crucial for the synthesis of advanced functional materials, enabling enhanced performance and novel functionalities.
Key Applications
Chemical Synthesis
As a primary chemical reagent organosilicon, it is extensively used in various organic synthesis pathways, facilitating complex molecular constructions.
Advanced Functional Materials
Its role in the synthesis of advanced functional materials is paramount, contributing to the development of high-performance polymers and specialty chemicals.
Research and Development
Researchers rely on the specific dimethylchlorosilyl benzene properties for groundbreaking investigations in material science and organometallic chemistry.
Electronic Materials Precursor
This silane intermediate for materials serves as a precursor in the electronics industry, contributing to the fabrication of specialized components.