par Jurček, Ondřej;Nonappa, N;Kalenius, Elina;Jurček, Pia;Linnanto, Juha M.;Puttreddy, Rakesh;Valkenier, Hennie 
;Houbenov, Nikolay;Babiak, Michal;Peterek, Miroslav;Davis, Anthony A.P.;Marek, Radek;Rissanen, Kari
Référence Cell reports physical science, 2, page (100303)
Publication Publié, 2021-01-08
;Houbenov, Nikolay;Babiak, Michal;Peterek, Miroslav;Davis, Anthony A.P.;Marek, Radek;Rissanen, KariRéférence Cell reports physical science, 2, page (100303)
Publication Publié, 2021-01-08
Article révisé par les pairs
| Résumé : | Construction of structurally complex architectures using inherently chiral, asymmetric, or multi-heterotopic ligands is a major challenge in metallosupramolecular chemistry. Moreover, the hierarchical self-organization of such complexes is unique. Here, we introduce a water-soluble, facially amphiphilic, amphoteric, chiral, asymmetric, and hetero-tritopic ligand derived from natural bile acid, ursodeoxycholic acid. We show that via the supramolecular transmetalation reaction, using nitrates of Cu(II) or Fe(III), and subsequently Pd(II), a superchiral Pd3L6 complex can be obtained. Even though several possible constitutional isomers of Pd3L6 could be formed, because of the ligand asymmetry and relative flexibility of carbamate-pyridyl moieties attached to the steroid scaffold, only a single product with C3 rotational symmetry was obtained. Finally, we demonstrate that these amphiphilic complexes can self-organize into hexagonal microparticles in aqueous media. This finding may lead to the development of novel self-assembled metal-organic functional materials made of natural, abundant, and relatively inexpensive steroidal compounds. |
