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Self-Assembled M 24 L 48 Polyhedra and Their Sharp Structural Switch upon Subtle Ligand Variation

2010; American Association for the Advancement of Science; Volume: 328; Issue: 5982 Linguagem: Inglês

10.1126/science.1188605

1095-9203

Qing‐Fu Sun, Junji Iwasa, Daichi Ogawa, Yoshitaka Ishido, Sota Sato, Tomoji Ozeki, Yoshihisa Sei, Kentaro Yamaguchi, Makoto Fujita,

Metal-Organic Frameworks: Synthesis and Applications

Two Molecular Spheres Viruses form highly symmetrical coat structures, capsids, through the assembly of multiple lower-symmetry protein precursors. Recently, chemists have sought to emulate this process on a smaller scale, relying on the assembly of organic molecular struts and metal ions, rather than proteins. Sun et al. (p. 1144 , published online 29 April; see the Perspective by Stefankiewicz and Sanders ) now demonstrate that a mixture of palladium ions and V-shaped bridging ligands can self-assemble into a hollow, nearly spherical polyhedron with 24 vertices and a central diameter of 4 nanometers. The assembly process was highly sensitive to the ligand angle; a subtle average decrease generated instead a smaller 12-vertex product.