Please use this identifier to cite or link to this item: http://localhost:8080/xmlui/handle/123456789/2633
Title: A switchable self-assembling and disassembling chiral system based on a porphyrin-substituted phenylalanine–phenylalanine motif
Authors: Georgios, Charalambidis
Evangelos, Georgilis
Manas Panda
Christopher, E. Anson
Annie, K. Powell
Stephen, Doyle
David, Moss
Tobias, Jochum
Peter N, Horton
Simon J, Coles
Mathieu, Linares
David, Beljonne
Jean-Vale, re Naubron
Jonas, Conradt
Heinz, Kalt
Anna, Mitraki
Athanassios, G Coutsolelos
Teodor Silviu, Balaban
Keywords: morphology
chlorophyll
J-aggregate
polypeptides
Issue Date: 1-Sep-2016
Publisher: NATURE COMMUNICATIONS
Citation: NATURE COMMUNICATIONS:7:12657
Abstract: Artificial light-harvesting systems have until now not been able to self-assemble into structures with a large photon capture cross-section that upon a stimulus reversibly can switch into an inactive state. Here we describe a simple and robust FLFL-dipeptide construct to which a meso-tetraphenylporphyrin has been appended and which self-assembles to fibrils, platelets or nanospheres depending on the solvent composition. The fibrils, functioning as quenched antennas, give intense excitonic couplets in the electronic circular dichroism spectra which are mirror imaged if the unnatural FDFD-analogue is used. By slightly increasing the solvent polarity, these light-harvesting fibres disassemble to spherical structures with silent electronic circular dichroism spectra but which fluoresce. Upon further dilution with the nonpolar solvent, the intense Cotton effects are recovered, thus proving a reversible switching. A single crystal X-ray structure shows a head-to-head arrangement of porphyrins that explains both their excitonic coupling and quenched fluorescence.
URI: http://hdl.handle.net/123456789/2633
Appears in Collections:2016

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