In the landscape of industrial chemistry, certain compounds serve as critical enablers of technological advancement. Cyclohexylbenzene (CAS 827-52-1) is one such versatile molecule, increasingly recognized for its vital roles beyond traditional solvent and intermediate uses, particularly in the burgeoning fields of electronics and energy storage. For researchers and manufacturers in these sectors, understanding the unique properties and sourcing of cyclohexylbenzene is essential.

One of the most significant high-tech applications of cyclohexylbenzene is its use as a precursor for intermediates in the production of liquid crystal display (LCD) materials. The precise molecular structure of cyclohexylbenzene allows for its transformation into specialized compounds that are integral to the performance and quality of modern displays. As the demand for high-resolution, energy-efficient screens continues to grow, so does the importance of reliable suppliers of key chemical components like cyclohexylbenzene. Companies seeking to manufacture or integrate these advanced materials often search for terms like 'cyclohexylbenzene for electronics' or 'LCD material intermediate supplier'.

Furthermore, cyclohexylbenzene is gaining prominence as a performance-enhancing additive for lithium-ion battery electrolytes. In the rapidly expanding energy storage market, safety and efficiency are paramount. Cyclohexylbenzene’s ability to improve battery safety by acting as a radical scavenger or by contributing to the formation of a stable solid electrolyte interphase (SEI) layer makes it a valuable component. This application is driving increased interest from battery manufacturers and electrolyte formulators looking to 'buy cyclohexylbenzene for batteries' or 'lithium-ion battery chemical supplier'. The need for high-purity grades is particularly acute in this field to ensure optimal electrochemical performance and longevity.

Beyond these cutting-edge applications, cyclohexylbenzene remains a cornerstone for producing fundamental chemicals such as phenol and cyclohexanone. These are widely used in the manufacture of plastics, resins, and synthetic fibers. Therefore, the demand is sustained not only by high-tech industries but also by the broader chemical manufacturing sector, reinforcing its status as a staple organic intermediate.

For businesses involved in these advanced sectors, sourcing cyclohexylbenzene requires careful consideration of product quality and supplier reliability. Manufacturers offering high-purity grades and consistent supply are highly sought after. When searching for 'CAS 827-52-1 chemical for electronics' or 'energy storage chemical supplier', buyers should look for detailed specifications, including information on purity, physical properties (boiling point, density), and handling recommendations. Competitive pricing from established manufacturers in regions like China further enhances its accessibility.

In essence, cyclohexylbenzene is more than just a solvent; it's an enabler of critical technologies in electronics and energy. As these industries continue to innovate, the demand for high-quality cyclohexylbenzene is poised to grow, making it a strategic chemical for any forward-thinking manufacturing or R&D operation. Engaging with experienced suppliers ensures access to this vital compound for future technological breakthroughs.