News and events
Sep 2015: Pud and Verschueren et al. publish self-aligned controlled dielectric breakdown of plasmonic nanopores in Nano Letters.
Sep 2015: We welcome Dr. Daniel Tordera as new member and postdoc in the group.
Jun 2015: We thank ÅForsk for 1.5MSEK funding for a postdoc and equipment for an exciting project.
May 2015: Magnus elected member of the Young Academy of Sweden.
Mar 2015: Magnus recieves an Ingvar Carlsson award from SSF.
Mar 2015: Daniel Verschueren et al. publish study on temperature-dependence of DNA nanopore translocations in the journal Nanotechnology.
Jan 2015: We thank the Wenner-Gren Foundations for new funding for a postdoc position in the lab.
Dec 2014: Paper (Yi Li et al.) published in Nano Letters on Photoresistance Switching of Plasmonic Nanopores.
Nov 2014: Paper (Francesca Nicoli et al.) published in Nano Letters on DNA translocations through plasmonic nanopores.
We explore nanooptical and organic photonic phenomena and their use in novel applications, such as new types of biosensing methods. Focus is on metal nanostructures, which interacts strongly with light through charge oscillations known as plasmons. Other research interests include developing new nanofabrication techniques, nanofluidics and surface chemistry for sensing applications.
The research group is led by Magnus Jonsson and part of the Laboratory of Organic Electronics at Linköping University, Sweden. Before Linköping University, Magnus was a postdoc as a Wenner-Gren Fellow in Prof. Cees Dekker´s group at Delft University of Technology in the Netherlands. His PhD studies were performed in Prof. Fredrik Höök's group at Chalmers University of Technology in Gothenburg, Sweden.
Join our lab!
We are always interested in motivated master students and postdocs with own funding. Please contact Magnus directly for more information.
Laboratory of Organic Electronics
Dep. of Science and Technology (ITN)
SE-601 74 Norrköping
updated 12/8 2015
Keywords: Nanoplasmonics, Nanoplasmonic Sensing, Localized Surface Plasmon Resonance, Nanofabrication, Nanoholes, Nanopores, Bioanalytical sensing, Artificial Cell Membranes, Surface-enhanced Raman scatterin, Structural changes, nanoplasmonic structural sensing