Organic synthesis is the art and science of constructing complex molecules from simpler ones. At its core are versatile chemical building blocks, and 3-Amino-2-hydroxybenzyl Alcohol (CAS: 52820-13-0) is a prime example of such a compound. With its molecular formula C7H9NO2 and a molecular weight of 139.15, this solid intermediate is highly sought after by chemists for its dual functional groups – an amine and a hydroxyl group – attached to a benzylic alcohol moiety. This structure offers a rich landscape for chemical transformations.

The strategic placement of these functional groups allows for a wide range of reactions, making 3-Amino-2-hydroxybenzyl Alcohol an indispensable tool in the synthetic chemist's arsenal. It can be readily modified through reactions like N-alkylation, N-acylation, O-alkylation, and O-acylation, as well as oxidation or reduction of the alcohol group. These capabilities are fundamental when working with organic synthesis building blocks to achieve specific molecular targets, whether for research or industrial applications. The compound's typical purity of 97% ensures reliable reaction outcomes.

For researchers and manufacturers, identifying dependable custom synthesis chemical suppliers is crucial for ensuring a consistent supply of high-quality intermediates. Whether it's for pilot studies or large-scale production, the reliability of the source for chemical building blocks directly impacts project success. Many laboratories and chemical companies turn to specialized manufacturers in China for efficient sourcing and competitive pricing of such essential materials.

The application of 3-Amino-2-hydroxybenzyl Alcohol extends across various fields, but its prominence in pharmaceutical intermediate synthesis is particularly notable. It serves as a precursor to numerous pharmacologically active compounds. By understanding the reaction chemistry and potential of these organic synthesis building blocks, chemists can design more efficient and innovative synthetic routes. This commitment to advancing chemical synthesis practices is what drives progress in areas from medicine to materials science.

In conclusion, 3-Amino-2-hydroxybenzyl Alcohol is a testament to the power of well-designed chemical building blocks. Its versatility, coupled with the availability from expert custom synthesis chemical suppliers, empowers chemists to push the boundaries of what is possible in organic synthesis, leading to the creation of novel compounds and solutions for a myriad of challenges.