In the complex world of pharmaceutical development, the quality and reliability of chemical intermediates are paramount. Tert-butyl 3-(2-(2-aminoethoxy)ethoxy)propanoate, identified by CAS number 756525-95-8, stands out as a crucial building block for many advanced synthetic pathways. This article delves into the significance of this compound, its chemical characteristics, and its essential role in creating innovative drug molecules. As a leading chemical intermediates supplier in China, our commitment is to provide materials that meet the stringent demands of pharmaceutical research and production.

The chemical structure of Tert-butyl 3-(2-(2-aminoethoxy)ethoxy)propanoate, with its molecular formula C11H23NO4 and a molecular weight of 233.30500, offers unique functionalities for organic synthesis. Its inclusion of a tert-butyl ester and a diethylene glycol amine moiety makes it highly versatile. This compound is often sought after for its potential in synthesizing complex molecules, including PEGylated structures, which are increasingly important in drug delivery systems due to their improved solubility and reduced immunogenicity. Understanding the optimal storage conditions – in a dark place, under an inert atmosphere, and at temperatures between 2-8°C – is vital for maintaining its high purity of 97%+.

When considering pharmaceutical synthesis, the consistency and purity of raw materials directly impact the final product's efficacy and safety. Sourcing this essential intermediate from a reputable manufacturer in China ensures that you receive a product that adheres to international quality standards. Whether you are looking to buy Tert-butyl 3-(2-(2-aminoethoxy)ethoxy)propanoate for small-scale research or large-scale production, partnering with a reliable supplier like us guarantees access to this critical chemical. Our extensive experience in chemical manufacturing allows us to offer not only high-quality products but also competitive pricing and timely delivery, supporting your drug discovery and development timelines. Explore the potential of this compound in your next project and experience the difference that quality makes in pharmaceutical synthesis.