| Literature DB >> 29989341 |
Kevin Guy1, Philipp Ehni2, Serge Paofai1, Robert Forschner2, Claire Roiland1, Maria Amela-Cortes1, Stéphane Cordier1, Sabine Laschat2, Yann Molard1.
Abstract
Replacing pure inorganic materials by functional organic-inorganic hybrid ones to lower production costs has become a major challenge, in particular for the optoelectronic industry. Adding nanostructuration abilities meanwhile preserving homogeneity is even more challenging for this class of new materials. Here we show that red-NIR emissive ternary molybdenum cluster salts can be assembled to liquid crystalline 15C5 crown ethers. The resulting hybrids are homogeneous and stable up to high temperature despite the weakness of the supramolecular interactions binding both components. These are illustrated by 133 Cs MAS NMR. All hybrids show hexagonal columnar arrangements and strong red-NIR emission. Surprisingly, when chlorinated clusters are used instead of brominated ones, the mesophase stability is largely enhanced.Entities:
Keywords: Organic-inorganic hybrid composites; Self-assembly; cluster compounds; energy conversion; liquid crystals
Year: 2018 PMID: 29989341 DOI: 10.1002/anie.201806556
Source DB: PubMed Journal: Angew Chem Int Ed Engl ISSN: 1433-7851 Impact factor: 15.336