Name: 4-formylphenyl 3-iodo-4-methoxybenzoate
Brand: BOC Sciences
Rating: 5 (1 reviews)

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Canonical SMILES

COC1=C(C=C(C=C1)C(=O)OC2=CC=C(C=C2)C=O)I

InChI

InChI=1S/C15H11IO4/c1-19-14-7-4-11(8-13(14)16)15(18)20-12-5-2-10(9-17)3-6-12/h2-9H,1H3

InChIKey

KSLMVQZBBARVRI-UHFFFAOYSA-N

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4-formylphenyl 3-iodo-4-methoxybenzoate, a versatile synthetic chemical compound, holds immense potential for a multitude of scientific research and drug development applications. Here are four key applications highlighted with a high degree of perplexity and burstiness:

Organic Synthesis: Embraced as a pivotal intermediate in synthesizing intricate organic compounds, 4-formylphenyl 3-iodo-4-methoxybenzoate serves as a fundamental building block in crafting diverse heterocyclic molecules essential in medicinal chemistry. Researchers harness its potential to innovate new pharmaceuticals and bioactive molecules with a myriad of therapeutic properties, pushing the boundaries of molecular innovation.

Chemical Biology: Encompassing the realm of chemical biology, this compound emerges as a potent tool for probing biological processes at the molecular scale. Its reactive functional groups enable the establishment of covalent bonds with biological macromolecules, empowering researchers to tag and monitor specific proteins or nucleic acids. This methodology aids in unveiling the intricate mechanisms of drug action and protein interactions within cellular environments, paving the way for groundbreaking discoveries.

Material Science: Within the domain of material science, 4-formylphenyl 3-iodo-4-methoxybenzoate finds its niche in advancing materials technology, especially in the realm of polymer and nanomaterial development. By integrating functional groups into polymer chains, this compound enhances material properties such as adhesion, conductivity, or biocompatibility, driving innovation in biomedical device fabrication, sensor technology, and electronic applications, propelling materials science into new frontiers.

Medicinal Chemistry: Playing a pivotal role in drug discovery endeavors, this compound acts as a crucial precursor for synthesizing bioactive molecules and pharmacophores. Its structural adaptability allows for the creation of a myriad of derivatives with the potential for therapeutic efficacy. Through strategic structural modifications, researchers can fine-tune the efficacy and specificity of drug candidates, tailoring them to target precise biological pathways or diseases, heralding a new era in precision medicine.