p-Iodoaniline CAS:540-37-4
Catalog Number | XD96212 |
Product Name | p-Iodoaniline |
CAS | 540-37-4 |
Molecular Formula | C6H6IN |
Molecular Weight | 219.02 |
Storage Details | Ambient |
Product Specification
Appearance | White powder |
Assay | 99% min |
p-Iodoaniline, also known as para-iodoaniline or 4-iodoaniline, is a compound with significant effects and applications in various fields, including chemical synthesis, pharmaceuticals, and materials science.One effect of p-Iodoaniline is its reactivity as an electrophile. The presence of the iodine atom in the para position of the aniline ring enhances the compound's electrophilicity. This increased electrophilic character makes p-Iodoaniline a valuable starting material for various synthetic transformations. For example, it can undergo nucleophilic substitution reactions to replace the iodine atom with other functional groups or to introduce substituents at different positions on the aromatic ring. This reactivity is crucial in the synthesis of diverse organic compounds, including pharmaceuticals, agrochemicals, and specialty chemicals.Another effect of p-Iodoaniline is its influence on the physical and chemical properties of the resulting derivatives. The presence of the iodine atom affects the electron density distribution in the molecule, altering its polarity and reactivity. This modification can lead to changes in the compound's solubility, volatility, and melting point, making it useful for various applications. Additionally, the iodine moiety can serve as a directing group for selective functionalization or as a handle for further chemical modifications, allowing the synthesis of complex molecules with specific properties.In the field of pharmaceuticals, p-Iodoaniline can act as a precursor for the synthesis of biologically active compounds. By introducing different substituents onto the aniline ring, researchers can manipulate the molecule's pharmacological properties, including its potency, selectivity, and bioavailability. This versatility makes p-Iodoaniline and its derivatives essential tools in medicinal chemistry, enabling the discovery and development of new drugs for various diseases.Furthermore, p-Iodoaniline and its derivatives are utilized in materials science. Due to its unique chemical properties, p-Iodoaniline can be incorporated into polymer matrices to modify their surface chemistry, electrical conductivity, and thermal stability. This makes it valuable in the development of functional materials, such as conducting polymers, sensors, and electronic devices.In summary, p-Iodoaniline exhibits various effects that make it valuable in chemical synthesis, pharmaceuticals, and materials science. Its electrophilic nature allows for versatile transformations, enabling the synthesis of diverse organic compounds. The iodine atom influences the physical and chemical properties of p-Iodoaniline derivatives, leading to unique applications in drug development and materials science. Overall, p-Iodoaniline's effects highlight its significance as a building block in the synthesis of valuable compounds and its potential for innovation in multiple scientific disciplines.