In the pursuit of novel materials, the quality of the foundational components is paramount. For the burgeoning field of Metal-Organic Frameworks (MOFs), high-purity ligands are the bedrock of successful synthesis and performance. 1,4-bis(1H-pyrazol-4-yl)benzene, a chemical compound with CAS number 1036248-62-0, stands out as a premier ligand, offering researchers and developers a reliable building block for advanced material design.

With a guaranteed purity of 97% minimum, this pale yellow solid ensures that MOF syntheses proceed with predictable outcomes, minimizing structural defects and maximizing the potential for targeted functionality. Its molecular formula, C12H10N4, and molecular weight of 210.23500, provide the specific chemical architecture needed to coordinate with metal centers, forming the intricate, porous structures that define MOFs. The compound's primary application is indeed as a ligand for MOF synthesis, a process critical for developing materials used in gas separation, storage, and catalysis.

The versatility of 1,4-bis(1H-pyrazol-4-yl)benzene as a ligand allows for the creation of MOFs with a wide range of pore sizes and chemical properties. This adaptability makes it an invaluable asset for researchers exploring new frontiers in material science. Whether investigating novel methods for carbon capture, developing advanced sensors, or engineering efficient catalysts, the consistent quality of this ligand ensures reproducible and scalable results. Its availability in various packaging options, from small research quantities to bulk industrial supply, further cements its status as a key component in the chemical supply chain for advanced materials.

The intrinsic properties of 1,4-bis(1H-pyrazol-4-yl)benzene, such as its ability to form stable coordination bonds and its characteristic pale yellow appearance, make it easy to identify and work with. This focus on quality and specificity is essential for pushing the boundaries of what MOFs can achieve, contributing to innovations that address pressing global challenges in energy, environmental protection, and beyond.