The field of organic synthesis is continuously enriched by the availability of versatile chemical intermediates that can be manipulated to create a vast array of complex molecules. Among these, 2-Methoxyethylamine, known by its CAS number 109-85-3, holds a significant position due to its unique combination of amine and ether functionalities. This makes it a valuable reagent for numerous Organic Synthesis Applications, including its role as a Pharmaceutical Synthesis Building Block and an Agrochemical Intermediate.

The fundamental structure of 2-Methoxyethylamine, a primary amine attached to a methoxy-substituted ethyl chain, allows it to participate in a multitude of reactions. Its amine group is a potent nucleophile, readily undergoing alkylation, acylation, and condensation reactions. These reactions are foundational in building carbon-nitrogen bonds, which are prevalent in many biologically active molecules, including pharmaceuticals and agrochemicals. Therefore, understanding the detailed CAS 109-85-3 chemical properties is crucial for chemists aiming to optimize their synthetic routes.

In pharmaceutical synthesis, 2-Methoxyethylamine serves as a key building block for creating diverse drug scaffolds. Its incorporation into molecular structures can influence pharmacokinetic properties such as solubility, absorption, and metabolism. The ability to efficiently buy 2-Methoxyethylamine from reliable suppliers, particularly from regions like China which has a robust chemical industry, ensures the consistent supply needed for research and large-scale manufacturing.

Similarly, its utility as an Agrochemical Intermediate contributes to the development of more effective and targeted crop protection agents. The incorporation of the methoxyethylamine moiety can impart specific properties to herbicides, insecticides, or fungicides, enhancing their performance and reducing environmental impact. Companies in the agrochemical sector often monitor the price market for this intermediate to manage production costs effectively.

Beyond these major sectors, 2-Methoxyethylamine finds applications in the synthesis of specialty polymers, surfactants, and other fine chemicals. Its versatility as a reagent makes it a staple in many organic chemistry laboratories and industrial production facilities. The safe handling of this compound, recognizing its flammable and corrosive nature, is paramount. Implementing proper Flammable Corrosive Chemical Handling procedures ensures that its benefits can be reaped without compromising safety.

In conclusion, 2-Methoxyethylamine's chemical structure imbues it with a broad range of reactivity, making it an exceptionally versatile intermediate in organic synthesis. Its critical roles in pharmaceutical and agrochemical production, alongside its applications in other fine chemical industries, underscore its importance in modern chemistry.