NINGBO INNO PHARMCHEM CO.,LTD. is proud to supply a range of essential chemical intermediates that are pivotal to advancements in organic chemistry and related fields. Among these, Nonanethiol (CAS 1455-21-6) stands out as a highly versatile compound, recognized globally as a key organic synthesis building blocks.

The chemical structure of Nonanethiol, characterized by its thiol (-SH) functional group at the terminal position of a nine-carbon alkane chain, grants it a unique reactivity profile. This makes it an ideal starting material or intermediate for a wide array of synthetic transformations. Chemists utilize Nonanethiol in reactions such as nucleophilic substitutions, additions, and the formation of thioethers and disulfides, all of which are fundamental to constructing complex organic molecules. Understanding the specific 1-nonanethiol CAS 1455-21-6 properties is crucial for optimizing reaction conditions and yields in these synthetic pathways.

Beyond its direct use in synthesis, Nonanethiol plays a significant role in materials science through its ability to form self-assembled monolayers (SAMs) on metal surfaces. This characteristic is essential for applications requiring precise surface modification, which is a growing area within materials science innovation. The formation of these ordered molecular layers allows for tailored surface properties, influencing everything from adhesion to electronic conductivity.

The application of Nonanethiol in agricultural research, where it acts as a germination stimulator for plant pathogens, further broadens its utility. This aspect connects it to the development of new agrochemical solutions, underscoring its relevance as one of the vital chemical intermediates for agriculture. The compound's broad applicability ensures its continued importance across multiple sectors.

NINGBO INNO PHARMCHEM CO.,LTD. is committed to providing the scientific community with high-purity Nonanethiol. Our consistent supply of this critical intermediate supports ongoing research and development efforts, enabling breakthroughs in both synthetic chemistry and applied materials science.