| Chemical Name: | 5-fluoro-2-pyrrolidin-1-ylbenzoic acid |
| CAS Number: | 1096304-38-9 |
| Product Number: | AG003MRD(AGN-PC-06OUXS) |
| Synonyms: | |
| MDL No: | MFCD11639773 |
| Molecular Formula: | C11H12FNO2 |
| Molecular Weight: | 209.2169 |
5-Fluoro-2-pyrrolidinobenzoic Acid is a valuable compound that finds extensive application in chemical synthesis, particularly in the field of pharmaceuticals and organic chemistry. Its unique structural properties make it a versatile intermediate in the production of various pharmaceutical agents and building blocks for organic synthesis.In chemical synthesis, 5-Fluoro-2-pyrrolidinobenzoic Acid serves as a key starting material for the synthesis of a wide range of biologically active molecules. It can be used as a precursor in the preparation of pharmaceutical drugs, agrochemicals, and other fine chemicals due to its ability to participate in diverse chemical reactions.One prominent application of 5-Fluoro-2-pyrrolidinobenzoic Acid is in the synthesis of novel drug candidates. By incorporating this compound into the molecular structure of potential drug candidates, researchers can modulate the pharmacological properties and enhance the biological activities of the resulting compounds. Additionally, its presence in the chemical backbone of organic molecules can impart desirable physicochemical properties that are crucial for drug design and development.Furthermore, 5-Fluoro-2-pyrrolidinobenzoic Acid can also be utilized in the synthesis of peptide derivatives and heterocyclic compounds, adding to its versatility as a valuable building block in organic chemistry. Its reactive functional groups enable the introduction of various substituents and modifications, allowing researchers to tailor the properties of the final compounds for specific applications.Overall, the application of 5-Fluoro-2-pyrrolidinobenzoic Acid in chemical synthesis plays a crucial role in the development of novel compounds with potential pharmaceutical importance and in advancing the field of organic chemistry. Its significance as a key intermediate underscores its importance in the synthesis of complex molecules with diverse functionalities and applications.
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