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DNA-Origami – Superlinsen aus Erbgutmolekülen - Wissenschaft aktuell

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Quelle: „DNA-based self-assembly of chiral plasmonic nanostructures with tailored optical response“, Anton Kuzyk et al.; Nature, DOI: nature10889

Eine Teleskopschiene für Nanomaschinen – Innovations Report

www.innovations-report.de

Maximilian J. Urban, Steffen Both, Chao Zhou, Anton Kuzyk, Klas Lindfors, Thomas Weiss und Laura Na Liu. Gold nanocrystal-mediated sliding of doublet DNA origami filaments. Nature Communications, 13. April 2018; DOI: s w. Quelle

Dna-Based Functional Materials 2014

dna-jena.de

Itamar Willner (Jerusalem) DNA-Based Functional Materials: Origami I (Jussi Toppari) ... Anton Kuzyk (MPI Stuttgart) Reconfigurable 3D plasmonic metamolecules

Past DNA Node Meetings - DNA node - LMU Munich

www.dna-node.de

Anton Kuzyk (Aalto University, Finland): "DNA origami based plasmonic nanostructures with engineered stimuli responses". 9 November DNA Node Meeting at LMU: Megan Engel (Oxford University): "Coarse-grained modelling of DNA origami behaviour under tension" 10 August

Welt der Physik: Superlinsen aus DNA-Molekülen

www.weltderphysik.de

Originalarbeit: „DNA-based self-assembly of chiral plasmonic nanostructures with tailored optical response“, Anton Kuzyk et al.; Nature Forscher: Tim Liedl. Center for Nanoscience, Ludwig-Maximilians-Universität, München. Bionanotechnologie, TU München

DNA als Lichtschalter - chemie.de

www.chemie.de

Anton Kuzyk, Robert Schreiber, Hui Zhang, Alexander O. Govorov, Tim Liedl und Na Liu; Reconfigurable 3D plasmonic metamolecules in the visible wavelength range; Nature Materials, online veröffentlicht am 6. Juli 2014

Physik-Department, TUM |

www.ph.tum.de

Anton Kuzyk, Robert Schreiber, Zhiyuan Fan, Günther Pardatscher, Eva-Maria Roller, Alexander Högele, Friedrich C. Simmel, Alexander O. Govorov und Tim Liedl Nature Volume 482, issue 7389, pp DOI: nature10889

DNA als Lichtschalter Meldung Nanosystems Initiative Munich (NIM)

www.nano-initiative-munich.de

Anton Kuzyk, Robert Schreiber, Hui Zhang, Alexander O. Govorov, Tim Liedl & Na Liu. Nature Mater. Published online 06 July Kontakt:.

Self-assembled nanostructures can be selectively controlledwww.nanowerk.com › nanotechnology-news

www.nanowerk.com

· The study was carried out by Anton Kuzyk from Aalto University, Maximilian Urban and Na Liu from Max Planck Institute for Intelligent ...

Self-assembled nanostructures can be selectively controlled

phys.org

In this study, structures were programmed to modify their shape by altering the pH," tells Assistant Professor Anton Kuzyk from Aalto University. Utilization of programmable DNA locks. In this study plasmonic metamolecules were functionalized with pH-sensitive DNA locks. DNA locks can be easily ...