In the dynamic world of scientific research and development, certain chemical compounds serve as foundational tools, enabling breakthroughs and facilitating complex experiments. 1-Chlorooctane, a clear, colorless liquid with the CAS number 111-85-3, is one such compound, valued for its distinct chemical properties and its practical utility in laboratory settings.

The primary applications of 1-Chlorooctane in research stem from its dual role as both a solvent and a reactive intermediate. As a solvent, it offers a medium for dissolving various organic compounds, facilitating reactions and analyses that might be challenging in other mediums. Its moderate polarity allows it to interact effectively with a range of substances, making it a versatile choice for many experimental protocols.

Beyond its solvent capabilities, 1-Chlorooctane is frequently employed as a reactive intermediate in organic synthesis. The presence of a chlorine atom makes it susceptible to nucleophilic substitution reactions, allowing for the introduction of an eight-carbon chain into target molecules. This characteristic is invaluable for researchers aiming to synthesize novel compounds with specific functionalities or structural attributes. The phrase '1-chlorooctane chemical properties' often leads researchers to its key reactive sites.

Understanding 'what is 1-chlorooctane used for' in a research context often involves its application in creating more complex organic structures, exploring reaction mechanisms, or as a component in analytical standards. For instance, it can be used to alkylate amines, alcohols, or thiols, generating a variety of derivatives. The ability to buy 1-chlorooctane for research purposes ensures that laboratories have access to this essential reagent.

The scientific community also utilizes 1-Chlorooctane in studies related to its physical properties, such as solubility, density, and boiling point, which are important for process design and safety. Its well-defined characteristics make it a reliable compound for reproducible experimental outcomes.

In conclusion, 1-Chlorooctane is an indispensable tool in scientific research and development. Its utility as a solvent and a reactive intermediate empowers chemists to explore new molecular frontiers and develop innovative solutions. For any research laboratory, ensuring a steady supply of high-quality 1-Chlorooctane is a key factor in achieving experimental success.