Octylbenzene, recognized globally by its CAS number 2189-60-8, is a chemical compound that features prominently in several scientific and industrial arenas. Its core identity is rooted in its octylbenzene chemical formula, C14H22, and its molecular weight of 190.32. The physical presentation of octylbenzene is that of a clear, colorless liquid, and its key octylbenzene physical properties include a boiling point of 261-263 °C and a density of 0.858 g/mL at 25 °C, which are critical for its application contexts.

A significant area of application for octylbenzene is its use as a solvent in specialized research. It plays a crucial role in studies concerning molecular self-assembly, where its properties allow for the visualization of complex structures using techniques such as scanning tunnelling microscopy (STM). The precision demanded in these experimental setups necessitates high-purity grades of octylbenzene, often specified as 99% or more. Examining the range of octylbenzene solvent applications reveals its indispensable nature in advanced scientific investigation.

For professionals in the field of organic chemistry, understanding the principles of octylbenzene chemical synthesis is fundamental. This involves familiarizing oneself with the methods of its production and its reactive potential within various synthetic routes. The process to acquire octylbenzene typically involves identifying reputable suppliers who can deliver the compound with consistent purity and in the required quantities for both academic research and industrial manufacturing.

Crucially, any work involving octylbenzene must be guided by its octylbenzene safety data. Information provided in Safety Data Sheets (SDS) details the necessary precautions, such as ensuring adequate ventilation and utilizing appropriate personal protective equipment to prevent exposure. Safe storage practices, typically involving sealed containers in dry conditions, are also vital for preserving its quality. The correct reference to the octylbenzene CAS number ensures that all safety and handling information is accurate.

Additionally, octylbenzene's ability to form charge-transfer complexes adds another dimension to its utility, particularly in materials science. The consistent supply of high-quality octylbenzene, as provided by manufacturers such as NINGBO INNO PHARMCHEM CO.,LTD., is essential for the continuous progress in chemical research and the development of novel materials and technologies.