For researchers and scientists in the field of chemistry, understanding the detailed properties of chemical compounds is the first step towards unlocking their full potential. (3,4-Dimethylphenyl)methanol, bearing the CAS number 6966-10-5, is one such molecule that offers a rich landscape for exploration in organic synthesis and material science. This article aims to provide a comprehensive overview of its key chemical characteristics and research applications.

Chemical Structure and Reactivity Profile

(3,4-Dimethylphenyl)methanol is an aromatic alcohol, specifically a substituted benzyl alcohol. Its molecular formula is C9H12O, with a molecular weight of 136.19 g/mol. The presence of the hydroxyl (-OH) group attached to a methylene (-CH2-) bridge, which is in turn connected to a phenyl ring substituted with two methyl groups at the 3 and 4 positions, dictates its reactivity. This structure makes the hydroxyl group susceptible to typical alcohol reactions such as esterification, etherification, and oxidation. The aromatic ring can also undergo electrophilic aromatic substitution, although the methyl groups will influence the regioselectivity of such reactions.

Researchers often look for '3,4-dimethylbenzyl alcohol properties' to understand how to best integrate it into their synthetic schemes. Its typical appearance as a white powder and a purity of 97% are standard specifications that researchers rely on for consistent experimental results. For procurement purposes, common search terms include 'buy (3,4-dimethylphenyl)methanol online' or 'high purity (3,4-dimethylphenyl)methanol supplier' to ensure they are obtaining material suitable for sensitive research.

Physical and Spectroscopic Data for Research

Key physical properties like melting point (62-65 °C) and boiling point (218-221 °C) are crucial for designing reaction conditions and purification strategies. Spectroscopic data, such as NMR, IR, and Mass Spectrometry, are also vital for compound characterization. While not detailed here, access to this data, often provided by suppliers, is essential for verifying the identity and purity of the compound.

The compound's potential as a versatile intermediate means it finds applications in various research areas:

  • Synthesis of Complex Organic Molecules: As a chiral precursor or a building block for natural product synthesis.
  • Development of New Materials: Its structure can be incorporated into polymers or functional materials.
  • Pharmaceutical Research: Used in the early stages of drug discovery as a scaffold or functional group carrier.

For scientists requiring this intermediate, understanding its properties and sourcing it reliably is paramount. Companies that specialize in providing research chemicals, often identified through searches like 'pharmaceutical intermediate 6966-10-5 supplier,' are key partners in scientific advancement. If you are looking to purchase (3,4-Dimethylphenyl)methanol, ensuring you get detailed technical specifications will be beneficial for your research endeavors.