The quest for novel materials and efficient synthetic pathways is a constant endeavor in the chemical industry. At the heart of many advanced chemical processes lies the strategic use of specialized organic intermediates. One such compound, (4-Vinylphenyl)methanol (CAS 1074-61-9), offers a unique combination of reactive functional groups that make it a valuable asset for chemists and material scientists worldwide. Sourcing this compound from reliable manufacturers, especially those in China, ensures access to high-quality material essential for successful synthesis and product development.

The Chemical Profile of (4-Vinylphenyl)methanol

(4-Vinylphenyl)methanol, also referred to as 4-Vinylbenzyl alcohol, is characterized by a molecular formula of C9H10O. Its structure features a phenyl ring substituted with both a vinyl (C=C) group and a hydroxymethyl (-CH2OH) group. This bifunctional nature is the key to its versatility. The vinyl group allows for participation in addition and polymerization reactions, while the alcohol moiety can undergo typical alcohol reactions such as esterification, etherification, and oxidation. The compound typically appears as a light yellow liquid and is known for its high purity, often exceeding 99%.

Key Synthesis Applications in Focus

The primary utility of (4-Vinylphenyl)methanol lies in its role as an organic intermediate. This means it serves as a crucial stepping stone in the creation of more complex chemical structures. Its applications are diverse and span several critical areas:

  • Polymer Synthesis: The vinyl group makes (4-Vinylphenyl)methanol an excellent monomer for the production of specialty polymers and copolymers. These materials can be engineered with specific properties for use in advanced coatings, adhesives, optical materials, and electronics. By incorporating this monomer, manufacturers can achieve enhanced thermal stability, improved adhesion, or unique optical characteristics in their final polymer products.
  • Organic Synthesis Pathways: In broader organic synthesis, (4-Vinylphenyl)methanol acts as a versatile building block. It can be functionalized at the alcohol group or used in reactions involving the aromatic ring or the vinyl group to construct complex organic molecules. This is particularly valuable in the research and development phases for new pharmaceuticals, agrochemicals, and fine chemicals, where precise molecular architecture is paramount.
  • Crosslinking Agents: The presence of two reactive sites allows (4-Vinylphenyl)methanol to function as a crosslinking agent in certain polymer systems, enhancing the mechanical strength and durability of materials.
  • Material Science Innovations: Researchers are exploring its use in developing novel materials, such as functionalized surfaces, specialty resins, and components for advanced composites. The ability to introduce vinyl and hydroxyl functionalities simultaneously is a significant advantage in designing materials with specific performance attributes.

Sourcing Strategy for (4-Vinylphenyl)methanol

For businesses looking to buy (4-Vinylphenyl)methanol, selecting a reliable manufacturer orsupplier is crucial. Focusing on suppliers with a proven track record for delivering high-purity products (99% min) is essential. Companies that provide detailed technical data, such as CAS 1074-61-9 specifications and Certificates of Analysis, offer greater assurance of quality. When considering (4-Vinylphenyl)methanol price, it is wise to solicit quotes from multiple vendors, particularly from those based in China, which is a major hub for chemical manufacturing.

Engaging with NINGBO INNO PHARMCHEM CO.,LTD. can provide access to a consistent supply of high-quality (4-Vinylphenyl)methanol. Our commitment to quality and service ensures that you receive the materials needed to drive your chemical synthesis and material innovation forward. We facilitate easy inquiry and competitive pricing for bulk purchases, supporting your research and manufacturing objectives.

In summary, (4-Vinylphenyl)methanol is a cornerstone intermediate for many chemical synthesis applications. Its unique structure and high purity make it indispensable for creating advanced materials and complex molecules. By partnering with reputable suppliers, companies can ensure the quality and cost-effectiveness needed to succeed in today's competitive chemical landscape.