Guest-induced growth of a surface-based supramolecular bilayer
Author: ["Matthew O. Blunt","James C. Russell","Maria del Carmen Gimenez-Lopez","Nassiba Taleb","Xiang Lin","Martin Schröder","Neil R. Champness","Peter H. Beton"]
Publication: Nature Chemistry
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Abstract
Self-assembly of planar molecules on a surface can result in the formation of a wide variety of close-packed or porous structures. Two-dimensional porous arrays provide host sites for trapping guest species of suitable size. Here we show that a non-planar guest species (C60) can play a more complex role by promoting the growth of a second layer of host molecules (p-terphenyl-3,5,3″,5″-tetracarboxylic acid) above and parallel to the surface so that self-assembly is extended into the third dimension. The addition of guest molecules and the formation of the second layer are co-dependent. Adding a planar guest (coronene) can displace the C60 and cause reversion to a monolayer arrangement. The system provides an example of a reversible transformation between a planar and a non-planar supramolecular network, an important step towards the controlled self-assembly of functional, three-dimensional, surface-based supramolecular architectures. The self-assembly of planar molecules at interfaces can produce porous nanostructured surfaces that allow the selective trapping of guest molecules. By careful choice of both network and guest molecule it is possible to promote controlled, reversible growth perpendicular to the surface in the form of a molecular bilayer.
Cite this article
Blunt, M., Russell, J., Gimenez-Lopez, M. et al. Guest-induced growth of a surface-based supramolecular bilayer. Nature Chem 3, 74–78 (2011). https://doi.org/10.1038/nchem.901
