The Role of CAS 79832-89-6 in Advanced Materials and Organic Synthesis
In the realm of chemical research and industrial manufacturing, specific compounds act as linchpins for innovation. CAS 79832-89-6, chemically identified as 1-Bromo-4-(trans-4-pentylcyclohexyl)benzene, is one such compound. This article delves into its importance as an advanced material precursor and its utility within organic synthesis.
1-Bromo-4-(trans-4-pentylcyclohexyl)benzene, often supplied as white needle-like crystals with a purity of 98% or more, is a sophisticated organic intermediate. Its molecular formula, C17H25Br, hints at its complex structure, featuring a brominated benzene ring coupled with a pentylcyclohexyl group. This specific arrangement is not arbitrary; it is designed to confer particular properties that are valuable in specialized applications.
A primary application of CAS 79832-89-6 lies in its role as a raw material for liquid crystal synthesis. Liquid crystals are the backbone of modern display technologies, and the precise chemical structures of their constituent molecules dictate their performance characteristics. As a key intermediate in this process, 1-Bromo-4-(trans-4-pentylcyclohexyl)benzene allows for the construction of liquid crystal monomers with tailored optical and electrical properties.
Furthermore, its utility extends into broader organic synthesis. The bromine atom on the aromatic ring provides a reactive handle for various coupling reactions, enabling chemists to build intricate molecular structures. This makes it a valuable asset in the development of new pharmaceuticals, agrochemicals, and specialty materials. The ability to reliably source this compound from reputable suppliers, often from China, ensures that research and production can proceed without interruption.
The demand for high-purity chemical intermediates like CAS 79832-89-6 underscores the sophisticated nature of contemporary chemical manufacturing. The precise control over molecular architecture, facilitated by compounds such as this bromobenzene derivative, is what drives progress in materials science and other technologically advanced fields.
In essence, 1-Bromo-4-(trans-4-pentylcyclohexyl)benzene is a testament to the power of chemical intermediates in enabling innovation. Its role in advanced materials and organic synthesis solidifies its position as a compound of significant industrial and scientific interest.
1-Bromo-4-(trans-4-pentylcyclohexyl)benzene, often supplied as white needle-like crystals with a purity of 98% or more, is a sophisticated organic intermediate. Its molecular formula, C17H25Br, hints at its complex structure, featuring a brominated benzene ring coupled with a pentylcyclohexyl group. This specific arrangement is not arbitrary; it is designed to confer particular properties that are valuable in specialized applications.
A primary application of CAS 79832-89-6 lies in its role as a raw material for liquid crystal synthesis. Liquid crystals are the backbone of modern display technologies, and the precise chemical structures of their constituent molecules dictate their performance characteristics. As a key intermediate in this process, 1-Bromo-4-(trans-4-pentylcyclohexyl)benzene allows for the construction of liquid crystal monomers with tailored optical and electrical properties.
Furthermore, its utility extends into broader organic synthesis. The bromine atom on the aromatic ring provides a reactive handle for various coupling reactions, enabling chemists to build intricate molecular structures. This makes it a valuable asset in the development of new pharmaceuticals, agrochemicals, and specialty materials. The ability to reliably source this compound from reputable suppliers, often from China, ensures that research and production can proceed without interruption.
The demand for high-purity chemical intermediates like CAS 79832-89-6 underscores the sophisticated nature of contemporary chemical manufacturing. The precise control over molecular architecture, facilitated by compounds such as this bromobenzene derivative, is what drives progress in materials science and other technologically advanced fields.
In essence, 1-Bromo-4-(trans-4-pentylcyclohexyl)benzene is a testament to the power of chemical intermediates in enabling innovation. Its role in advanced materials and organic synthesis solidifies its position as a compound of significant industrial and scientific interest.
Perspectives & Insights
Logic Thinker AI
“This article delves into its importance as an advanced material precursor and its utility within organic synthesis.”
Molecule Spark 2025
“1-Bromo-4-(trans-4-pentylcyclohexyl)benzene, often supplied as white needle-like crystals with a purity of 98% or more, is a sophisticated organic intermediate.”
Alpha Pioneer 01
“Its molecular formula, C17H25Br, hints at its complex structure, featuring a brominated benzene ring coupled with a pentylcyclohexyl group.”