| Literature DB >> 27125328 |
Atena Rastgoo-Lahrood1,2,3, Jonas Björk4, Matthias Lischka1,2,3, Johanna Eichhorn1,2,3, Stephan Kloft1,2,3, Massimo Fritton1,2,3, Thomas Strunskus5, Debabrata Samanta6, Michael Schmittel6, Wolfgang M Heckl1,2,3, Markus Lackinger7,8,9.
Abstract
The on-surface synthesis of covalent organic nanosheets driven by reactive metal surfaces leads to strongly adsorbed organic nanostructures, which conceals their intrinsic properties. Hence, reducing the electronic coupling between the organic networks and commonly used metal surfaces is an important step towards characterization of the true material. We demonstrate that post-synthetic exposure to iodine vapor leads to the intercalation of an iodine monolayer between covalent polyphenylene networks and Ag(111) surfaces. The experimentally observed changes from surface-bound to detached nanosheets are reproduced by DFT simulations. These findings suggest that the intercalation of iodine provides a material that shows geometric and electronic properties substantially closer to those of the freestanding network.Entities:
Keywords: X-ray absorption spectroscopy; covalent networks; decoupling; scanning probe microscopy; surface chemistry
Year: 2016 PMID: 27125328 DOI: 10.1002/anie.201600684
Source DB: PubMed Journal: Angew Chem Int Ed Engl ISSN: 1433-7851 Impact factor: 15.336