Molecular architecture by means of interactions between Ag(I) and glycine derivatives

The use of a ligand directed strategy in the assembly of discrete cluster, 2D layers and 3D networks, using N-substituted glycine derivatives with o-iodobenzoyl (a bulky substituent) or pyrimidyl, create a new possibility in the design of coordination networks. According to the nature of the substituent, 2D layers (with o-iodobenzoyl) or 3D networks (with pyrimidyl), with tubular cavities and Ag⋯Ag short contacts, are obtained. The synthesis and crystalline structure of the ligand N-(pyrimidyl)glycine (1), its silver derivative [Ag(pyr-gly)] · 0.5H20 (2) and the silver derivative of o-iodohippuric acid [Ag(I-hip)] · 1.25H2O (3) are described. The structures of 2 and 3 present tubular cavities being, in complex 2 a 3D structure with cycles and clusters Ag4O4 that retains water inside the tubular channels. In the other hand, the compound 3 presents a 2D structure generated by macrocyclic rings formed between the ligand and the metal ion; these bi-dimensional networks are piled in the c-direction, and the different layers are detached by water molecules as an intercalation compound; in addition, each layer interacts with the others by stacking (distance, 3.38 Å) between series of two aryl rings inside of the channel and preserving it along the c-axis. Finally, short Ag⋯I contacts are also present as recognition factors in compound 3.

Two different types of tubular channels in [Ag(pyr-gly)] · 0.5H20.Figure optionsDownload as PowerPoint slide