In the pursuit of novel chemical entities and advanced materials, access to versatile and reactive intermediates is fundamental. (Chloromethyl)dimethoxy(methyl)silane, identified by its CAS number 2212-11-5, stands out as a key organosilicon compound offering significant synthetic potential for a wide range of applications, particularly within the pharmaceutical and specialty chemical sectors. For R&D scientists and manufacturers, understanding the capabilities of this intermediate is crucial for unlocking new synthesis pathways.

Chemical Reactivity and Synthetic Utility
(Chloromethyl)dimethoxy(methyl)silane (C4H11ClO2Si) possesses a unique combination of functional groups. The chloromethyl moiety is highly susceptible to nucleophilic substitution, allowing for the facile introduction of diverse organic functionalities onto the silane backbone. This reactivity is a primary reason why researchers and manufacturers choose to buy this compound. Furthermore, the dimethoxy groups can undergo hydrolysis and condensation reactions, paving the way for its use in forming siloxane networks or acting as a coupling agent. The typical physical state of this compound is a clear liquid, making it convenient for use in standard laboratory and industrial reaction setups.

Applications Driving Demand for CAS 2212-11-5
The synthetic utility of (Chloromethyl)dimethoxy(methyl)silane translates into several key application areas:

  • Pharmaceutical Intermediate Synthesis: In the pharmaceutical industry, this silane is a valuable building block for creating complex drug molecules. Its ability to introduce specific side chains or to serve as a scaffold for active pharmaceutical ingredients (APIs) makes it a sought-after precursor. Companies looking to buy this for drug discovery often require high-purity grades to ensure the integrity of their research.
  • Specialty Chemical Development: The compound is instrumental in synthesizing various specialty chemicals. Its reactive nature allows for the creation of tailored organosilicon compounds with specific properties, such as enhanced thermal stability, hydrophobicity, or adhesive characteristics, vital for advanced coatings, adhesives, and electronic materials.
  • Cross-linking and Polymer Modification: It can act as a cross-linking agent in polymer systems, improving mechanical strength and durability. Additionally, it can be used for surface modification of materials to impart desired surface properties.
  • Catalyst Synthesis: Certain derivatives of silanes are explored for their catalytic activity, and intermediates like CAS 2212-11-5 provide a starting point for synthesizing novel organometallic or organosilicon catalysts.

Reliable Sourcing for Synthesis Success
To harness the full synthetic potential of (Chloromethyl)dimethoxy(methyl)silane, it is imperative to source it from reliable manufacturers who guarantee high purity and consistent quality. When you need to buy this compound, look for suppliers with established quality control procedures, such as those providing >97.0% (GC) purity and Certificates of Analysis. Working with manufacturers that offer flexible order quantities and efficient logistics ensures that your R&D and production workflows remain uninterrupted. A well-chosen supplier not only provides the necessary material but also contributes to the overall success and efficiency of your synthesis projects.