1-Chloromethyl Naphthalene CAS 86-52-2: A Versatile Organic Intermediate
Explore the synthesis, properties, and critical applications of this vital chemical in modern industry.
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1-Chloromethyl Naphthalene
An essential organic intermediate, 1-Chloromethyl Naphthalene (CAS 86-52-2) plays a crucial role in various chemical synthesis pathways. Its unique chemical structure makes it highly valuable in the development of complex organic molecules and active pharmaceutical ingredients.
- Discover the detailed 1-Chloromethyl Naphthalene synthesis methods employed in industrial and laboratory settings, ensuring high purity and yield.
- Understand the critical 1-Chloromethyl Naphthalene applications, ranging from its role as a polymerization initiator to its use in sophisticated organic reactions.
- Learn about the key 1-Chloromethyl Naphthalene properties, including its physical state, melting point, and solubility, vital for effective handling and reaction planning.
- Explore how CAS 86-52-2 is utilized as a pharmaceutical intermediate, contributing to the synthesis of vital medicinal compounds.
Key Advantages
Synthetic Versatility
Leverage the compound's reactivity for diverse organic synthesis, enabling the creation of a wide array of target molecules.
Polymerization Control
As an atom transfer radical polymerization initiator, it allows for precise control over polymer molecular weight and architecture, as demonstrated in studies of 1-chloromethyl naphthalene polymerization.
Pharmaceutical Building Block
Its role as a pharmaceutical intermediate is critical for the development of new drug candidates, aiding in the synthesis of complex active pharmaceutical ingredients.
Key Applications
Organic Synthesis
Utilize 1-Chloromethyl Naphthalene in complex organic reactions such as nucleophilic aromatic substitution to create specialized chemical structures efficiently.
Polymer Chemistry
Serve as an effective initiator in Atom Transfer Radical Polymerization (ATRP), enabling the synthesis of well-defined polymers with controlled properties.
Pharmaceutical Development
Function as a vital pharmaceutical intermediate in the multi-step synthesis of various therapeutic agents and drug precursors.
Fine Chemicals Manufacturing
Contribute to the production of fine chemicals used in diverse industrial applications, thanks to its reliable CAS 86-52-2 properties.