On-Surface Synthesis within a Porphyrin Nanoring Template
Description
On-surface synthesis provides a route for the production of 1D and 2D covalently bonded polymeric structures. Such reactions are confined to the surface of a substrate and the catalytic properties of the substrate are often utilised to initiate the reaction. Recent studies have focused on the properties of various crystallographic planes of metallic substrates, as well as native surface features such as step-edges, in an effort to provide control over the pathway of the reaction and the resultant products. An alternative approach is to template the catalytic surface with a porous molecular overlayer; giving rise to well-defined surface regions within which an on-surface reaction may be confined. Here we present a methodology where macromolecular templates are used to confine an on-surface reaction. Cyclic porphyrin polymers, nanorings - consisting of 40 porphyrin units with internal diameter 13 nm, are used to form a template on a Au(111) surface, and an on-surface Ullmann-type coupling reaction is initiated within the nanoring template. The surface confined template and covalently coupled reaction products are investigated and characterised with scanning tunnelling microscopy.
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Subjects
- Surface chemistry
- Scanning probe microscopy
- Polymers
- Surface chemistry; Silver -- Surfaces; Scanning probe microscopy; Catalysis; Chemical bonds -- Structure; on-surface synthesis, Ullmann coupling, scanning probe microscopy, cataylsis; Physical sciences::Chemistry::Physical chemistry; Physical sciences::Physics::Chemical physics, Solid-state physics; Porphyrins; Nanorings
- Physical sciences::Chemistry::Physical chemistry
- Q Science::QD Chemistry::QD450 Physical and theoretical chemistry
Divisions
- University of Nottingham, UK Campus::Faculty of Science::School of Physics and Astronomy
Deposit date
2019-06-28Data type
Scanning tunnelling microscopy images (STM)Contributors
- Kondratuk, Dmitry V.
- Anderson, Harry L.
Funders
- Engineering & Physical Sciences Research Council
- People Programme (Marie Curie Actions) of the European Union's Seventh Framework Programme
- Clarendon Fund of the University of Oxford
- European Research Council
- EPSRC doctoral training grant
Grant number
- EP/J006939/1
- EP/J007161/1
- ERC 320969
Collection dates
- 01/11/17-23/02/18
Data collection method
Scanning Tunelling Microscopy (STM): Omicron STM-1Resource languages
- en