TY - JOUR AB - Statistical copolymerization plays a key role in many biological and technological processes; however, mechanistic understanding of the formation of analogous supramolecular counterparts remains limited. Herein, we report detailed insights into the supramolecular co-assembly of two p-conjugated PdII and PtII complexes, which in isolation self-assemble into flexible fibers and nanodisks, respectively. An efficient single-step co-assembly into only one type of nanostructure (fibers or nanodisks) takes place if any of the components is in excess. In contrast, equimolar mixtures lead to PdII-rich fiber-like co-assemblies by a statistical co-nucleation event along with a residual amount of self-sorted nanodisks in a stepwise manner. AU - Coelho, Joao Paulo AU - Matern, Jonas AU - Albuquerque, Rodrigo Q. AU - Fernández, Gustavo DA - 2019-04-26 DO - 10.1002/chem.201900604 KW - PtII-Komplexe KW - Selbstorganisation KW - Selbstsortierung KW - supramolekulare Polymere KW - p-konjugierte Systeme KW - PtII complexes KW - self-assembly KW - self-sorting KW - supramolecular polymers KW - p-conjugated systems LA - eng N1 - Chem. Eur. J. (2019) 25, 8960-8964 N1 - This work was supported by the the Humboldt Foundation (Sofja-Kovalevskaja Award) and the European Commission (ERC-StG-2016 SUPRACOP-715923). PY - 2019-04-26 TI - Mechanistic Insights into Statistical Co-Assembly of Metal Complexes TT - Mechanistische Einblicke in die statistische Co-Assemblierung von Metallkomplexen UR - https://nbn-resolving.org/urn:nbn:de:hbz:6-30189431511 Y2 - 2024-12-28T02:04:38 ER -