Discover the versatility of Hexanedioic Acid Mono-(2-carboxyphenyl) Ester, a premium-quality chemical compound with a unique molecular structure and exceptional purity. This CAS 863985-44-8 compound boasts a molecular weight of 266.25g/mol, offering a powerful tool for advanced research and development. Its InChI code, InChI=1S/C13H14O6/c14-11(15)7-3-4-8-12(16)19-10-6-2-1-5-9(10)13(17)18, provides a detailed blueprint of its intricate composition. Embrace the precision and performance of this exceptional chemical in your next experiment or synthesis, and unlock the versatile potential it holds for your scientific endeavors.
Unlock the versatile potential of Hexanedioic Acid Mono-(2-carboxyphenyl) Ester, a meticulously crafted chemical compound that holds the key to unlocking new frontiers in scientific research and development. With its unique molecular structure and exceptional purity, this compound is poised to become an indispensable tool in the hands of discerning researchers and chemists.
Identified by the CAS number 863985-44-8, Hexanedioic Acid Mono-(2-carboxyphenyl) Ester is a highly specialized Carboxylic Acid derivative that boasts a diverse range of applications. Its chemical formula, C13H14O6, and molecular weight of 266.25 g/mol, combined with its distinct InChI code and SMILES notation, provide a comprehensive identifier for this remarkable compound.
Delve into the intricate details of this chemical marvel, where the interplay of its structural elements – the hexanedioic acid backbone, the 2-carboxyphenyl ester, and the strategic placement of functional groups – unlock a world of possibilities. This unique combination of features endows Hexanedioic Acid Mono-(2-carboxyphenyl) Ester with exceptional versatility, making it a valuable asset in the realms of pharmaceutical research, agrochemical development, and advanced material synthesis.
In the dynamic landscape of pharmaceutical research, Hexanedioic Acid Mono-(2-carboxyphenyl) Ester shines as a crucial building block in the synthesis of innovative drug candidates. Its distinct chemical structure and reactivity allow researchers to explore novel molecular pathways, potentially leading to the development of targeted therapies for a wide range of health conditions. From neurological disorders to metabolic diseases, this compound's versatility empowers scientists to push the boundaries of pharmaceutical innovation.
The strategic placement of the carboxyphenyl ester group, coupled with the stability of the hexanedioic acid backbone, creates a unique molecular scaffold that can be seamlessly integrated into complex pharmaceutical compounds. This versatility enables researchers to fine-tune the pharmacological properties of their drug candidates, optimizing factors such as bioavailability, target specificity, and therapeutic efficacy.
Beyond the realm of pharmaceuticals, Hexanedioic Acid Mono-(2-carboxyphenyl) Ester also finds its niche in the dynamic field of agrochemical development. Its chemical properties and structural attributes contribute to the synthesis of advanced crop protection agents, helping to safeguard agricultural yields and promote sustainable farming practices.
The strategic incorporation of this compound into agrochemical formulations can lead to the creation of potent and selective pesticides, herbicides, or fungicides. Its unique molecular design can enhance the efficacy and specificity of these agents, ensuring targeted and effective protection for crops while minimizing environmental impact. By leveraging the versatility of Hexanedioic Acid Mono-(2-carboxyphenyl) Ester, researchers in the agrochemical industry can develop innovative solutions that support the transition towards a more sustainable and eco-friendly agricultural landscape.
Beyond the realms of pharmaceuticals and agrochemicals, Hexanedioic Acid Mono-(2-carboxyphenyl) Ester also finds its place in the exciting world of material science. Its distinct chemical properties and structural characteristics make it a valuable asset in the development of novel materials with enhanced performance characteristics.
Researchers in material science can harness the unique features of this compound to engineer advanced polymers, coatings, or composite materials with tailored properties. The strategic integration of Hexanedioic Acid Mono-(2-carboxyphenyl) Ester can lead to the creation of substances with improved mechanical strength, thermal stability, or even unique optical properties. These innovative materials can then be leveraged across a wide range of industries, from aerospace and automotive to electronics and beyond, unl