| Literature DB >> 29064493 |
Urszula Lewandowska1, Wojciech Zajaczkowski2, Stefano Corra1, Junki Tanabe1,3, Ruediger Borrmann1, Edmondo M Benetti4, Sebastian Stappert2, Kohei Watanabe3, Nellie A K Ochs1, Robin Schaeublin5, Chen Li2, Eiji Yashima3, Wojciech Pisula2,6, Klaus Müllen2,7, Helma Wennemers1.
Abstract
Despite recent advances in the synthesis of increasingly complex topologies at the molecular level, nano- and microscopic weaves have remained difficult to achieve. Only a few diaxial molecular weaves exist-these were achieved by templation with metals. Here, we present an extended triaxial supramolecular weave that consists of self-assembled organic threads. Each thread is formed by the self-assembly of a building block comprising a rigid oligoproline segment with two perylene-monoimide chromophores spaced at 18 Å. Upon π stacking of the chromophores, threads form that feature alternating up- and down-facing voids at regular distances. These voids accommodate incoming building blocks and establish crossing points through CH-π interactions on further assembly of the threads into a triaxial woven superstructure. The resulting micrometre-scale supramolecular weave proved to be more robust than non-woven self-assemblies of the same building block. The uniform hexagonal pores of the interwoven network were able to host iridium nanoparticles, which may be of interest for practical applications.Entities:
Year: 2017 PMID: 29064493 DOI: 10.1038/nchem.2823
Source DB: PubMed Journal: Nat Chem ISSN: 1755-4330 Impact factor: 24.427