The world of specialty chemicals is driven by innovation, and at its heart are unique chemical intermediates that enable the creation of advanced materials and products. 3-Amino-2-hydroxybenzyl Alcohol, identified by its CAS number 52820-13-0, is one such versatile compound. With its molecular formula C7H9NO2 and molecular weight of 139.15, this solid intermediate, typically available at 97% purity, plays a significant role in diverse synthetic applications beyond pharmaceuticals.

The presence of both an amine group and a phenolic hydroxyl group, in addition to a primary alcohol function, grants 3-Amino-2-hydroxybenzyl Alcohol exceptional reactivity and utility. These functional groups can be selectively modified, allowing for the synthesis of complex molecules used in areas such as advanced polymers, electronic materials, and specialized organic dyes. As a chemical building block, its adaptability makes it a valuable asset for researchers developing next-generation materials.

For companies operating in the specialty chemical sector, securing reliable sources of intermediates is critical for maintaining product quality and supply chain stability. Working with experienced custom synthesis chemical suppliers, particularly those with robust manufacturing capabilities in regions like China, can provide a competitive edge. These partners often offer not only high-purity intermediates but also custom synthesis services tailored to specific project requirements.

The exploration of new chemical entities often relies on the availability of well-characterized organic synthesis building blocks. 3-Amino-2-hydroxybenzyl Alcohol fits this description perfectly, offering a scaffold that can be elaborated into a wide array of functional molecules. Its contribution to the field of specialty chemicals highlights the ongoing importance of precise chemical synthesis and the strategic sourcing of essential intermediates.

In conclusion, 3-Amino-2-hydroxybenzyl Alcohol is a key player in the specialty chemical industry. Its utility as a chemical building block, combined with the accessibility through trusted custom synthesis chemical suppliers, fuels innovation across numerous advanced applications. By understanding and utilizing such intermediates, the chemical industry continues to develop groundbreaking products that shape our modern world.