Multi‐functional, Low Symmetry Pd(2)L(4) Nanocage Libraries

Although many impressive metallo‐supramolecular architectures have been reported, they tend towards high symmetry structures and avoid extraneous functionality to ensure high fidelity in the self‐assembly process. This minimalist approach, however, limits the range of accessible structures and thus their potential applications. Herein is described the synthesis of a family of ditopic ligands wherein the ligand scaffolds are both low symmetry and incorporate exohedral functional moieties. Key to this design is the use of Cu(I)‐catalysed azide‐alkyne cycloaddition (CuAAC) chemistry, as the triazole is capable of acting as both a coordinating heterocycle and a tether between the ligand framework and functional unit simultaneously. A common precursor was used to generate ligands with various functionalities, allowing control of electronic properties whilst maintaining the core structure of the resultant cis‐Pd(2)L(4) nanocage assemblies. The isostructural nature of the scaffold frameworks enabled formation of combinatorial libraries from the self‐assembly of ligand mixtures, generating a statistical mixture of multi‐functional, low symmetry architectures.