In the field of fine chemicals, understanding the precise properties of key intermediates is crucial for successful synthesis and application development. 2,5-bis(butoxy)benzene-1,4-dialdehyde, a compound vital for the creation of advanced materials like COFs and MOFs, is characterized by several key attributes, including its purity and physical state.

One of the most important specifications for this organic dialdehyde is its purity. With a typical purity of 97% minimum, it ensures that chemists and material scientists can rely on its consistent performance in sensitive synthesis protocols. High purity is particularly critical when building intricate molecular frameworks, where even minor impurities can disrupt the formation of ordered structures and compromise the final material's properties. This level of purity is achieved through rigorous manufacturing and quality control processes.

The physical state of 2,5-bis(butoxy)benzene-1,4-dialdehyde is also noteworthy. It presents as a solid with a defined melting point of 67°C. This characteristic solid form at room temperature, coupled with its moderate melting point, makes it convenient for handling, storage, and precise weighing in laboratory settings. The melting point serves as an important indicator of purity; a sharp melting range generally signifies a high degree of purity.

These properties collectively underscore the value of 2,5-bis(butoxy)benzene-1,4-dialdehyde as a reliable building block in advanced chemical synthesis. Whether used in the development of cutting-edge porous materials or in the creation of other complex organic molecules, its predictable characteristics and assured purity are indispensable for achieving desired outcomes and driving innovation.