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Title Tunable fluoresvene of a semiconducting polythiophene positioned on DNA origami
Date 26.07.2017
Number 53547
Abstract A novel approach for the integration of p-conjugated polymers (CPs) into DNA-based nanostructures is presented. Using the controlled Kumada catalyst-transfer polycondensation, well-defined thiophene-based polymers with controllable molecular weight, specific end groups, and water-soluble oligoethylene glycol-based side chains were synthesized. The end groups were used for the easy but highly efficient click chemistry-based attachment of end-functionalized oligodeoxynucleotides (ODNs) with predesigned sequences. As demonstrated by surface plasmon resonance spectroscopy, the prepared block copolymers (BCPs), P3(EO)3T-b-ODN, comprising different ODN lengths and specific or repetitive sequences, undergo specific hybridization with complementary, thiol-functionalized ODNs immobilized on a gold surface. Furthermore, the site-specific attachment of the BCPs to DNA origami structures is studied. We demonstrate that a nanoscale object, that is, a single BCP with a single ODN handle, can be directed and bound to the DNA origami with reasonable yield, site-specificity, and high spatial density. On the basis of these results, we are able to demonstrate for the first time that optical properties of CP molecules densely immobilized on DNA origami can be locally fine-tuned by controlling the attractive p–p-stacking interactions between the CPs. In particular, we show that the fluorescence of the immobilized CP molecules can be significantly enhanced by surfactant-induced breakup of p–p-stacking interactions between the CP’s backbones. Such molecular control over the emission intensity of the CPs can be valuable for the construction of sophisticated switchable nanophotonic devices and nanoscale biosensors.
URL http://dx.doi.org/10.1021/acs.nanolett.7b02623
Publisher Nano Letters
Identifier 0
Citation Nano Letters 17 (2017) 5163-5170
DOI http://dx.doi.org/10.1021/acs.nanolett.7b02623
Authors Zessin, J. ; Fischer, F. ; Heerwig, A. ; Kick, A. ; Boye, S. ; Stamm, M. ; Kiriy, A. ; Mertig, M.
Tags block copolymers conjugated polymers dna nanotechnology high-resolution atomic force microscopy surface plasmon resonance spectroscopy p-p stacking

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