Porphyrin Nanorings
Lead Research Organisation:
University of Nottingham
Department Name: Sch of Physics & Astronomy
Abstract
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Organisations
Publications
Kondratuk DV
(2012)
Two Vernier-templated routes to a 24-porphyrin nanoring.
in Angewandte Chemie (International ed. in English)
Saywell A
(2016)
Organisation and ordering of 1D porphyrin polymers synthesised by on-surface Glaser coupling.
in Chemical communications (Cambridge, England)
Wieland MB
(2014)
Height dependent molecular trapping in stacked cyclic porphyrin nanorings.
in Chemical communications (Cambridge, England)
Kondratuk DV
(2014)
Vernier-templated synthesis, crystal structure, and supramolecular chemistry of a 12-porphyrin nanoring.
in Chemistry (Weinheim an der Bergstrasse, Germany)
Svatek SA
(2013)
Mechanical stiffening of porphyrin nanorings through supramolecular columnar stacking.
in Nano letters
Kondratuk DV
(2015)
Supramolecular nesting of cyclic polymers.
in Nature chemistry
Summerfield A
(2019)
Ordering, flexibility and frustration in arrays of porphyrin nanorings.
in Nature communications
Bellamy-Carter A
(2021)
Self-assembly of a strapped linear porphyrin oligomer on HOPG
in Scientific Reports
Judd CJ
(2019)
On-Surface Synthesis within a Porphyrin Nanoring Template.
in Scientific reports
Description | We have discovered novel modes of packing of deformable cyclic polymers including nesting and stacking. We have also formed arrays of cyclic polymers on insulating surfaces in collaboration withe our collaborators in Oxford. In addition we have, together with theorists, identified new modes of packing of deformable cyclic polymers which results in a coupling of molecular deformation and packing symmetry. |
Exploitation Route | The cyclic polymers, and their controlled organisation could be used as templates to control the trapping of other materials and potentially spatially confined chemical reactions. |
Sectors | Chemicals Electronics Energy |