Pyrazole Ligands in Supramolecular Chemistry: Self-Assembly and Their Applications─A Comprehensive Review
Fida Ullah, Shu‐Yan Yu, Jia Li, Haseeb Ullah
Abstract
Pyrazole ligands have become important and accessible building blocks in supramolecular chemistry because of their special coordination properties, which promote the self-assembly of complex molecular structures. Pyrazole ligands can self-assemble into supramolecular structures such as metal-organic frameworks, coordination polymers, and nanostructured materials through noncovalent interactions such as hydrogen bonding, π-π stacking, and metal coordination. These assemblies demonstrate exceptional capabilities with applications ranging from catalysis to sensing, drug delivery, and material science. Despite having great potential, pyrazole ligands face significant complications, such as low stability under different environmental conditions, low synthesis scalability, and low selectivity and sensitivity in real-world applications. To overcome these limitations, future research should focus on improving the design and functionality of pyrazole ligands using advanced synthetic methods, computational modeling, and integration into hybrid materials. The ongoing investigation of pyrazole ligands has the potential to reveal novel possibilities for the development of cutting-edge materials and technologies, underscoring their crucial contribution to the progress of supramolecular chemistry. This review highlights the significance of pyrazole ligands in self-assembly, their applications, the challenges faced, and future directions for research in this area.