The research field entitled structural DNA nanotechnology emerged in the beginning of the
1980s as the first immobile synthetic nucleic acid junctions were postulated and …

Structural DNA nanotechnology provides unique, well-controlled, versatile, and highly
addressable motifs and templates for assembling materials at the nanoscale. These …

In this communication, we present a nanoscale reactor assembled from tuneable and
spatially addressable tubular DNA origami units. We can controllably combine separate …

Charge transfer and charge transport are by far among the most important processes for
sustaining life on Earth and for making our modern ways of living possible. Involving multiple …

The DNA origami technique provides an intriguing possibility to develop customized
nanostructures for various bionanotechnological purposes. One target is to create tailored …

DNA origami nanostructures have tremendous potential to serve as versatile platforms in
self-assembly-based nanofabrication and in highly parallel nanoscale patterning. However …

Diverse nanopore-based technologies have substantially expanded the toolbox for label-
free single-molecule sensing and sequencing applications. Biological protein pores …

Dielectrophoresis is a powerful technique for the handling of bioparticles ranging in size and
structure from cells to proteins. The surge in experimental research on dielectrophoretic …

DNA based structures offer an adaptable and robust way to develop customized
nanostructures for various purposes in bionanotechnology. One main aim in this field is to …

DNA origami is a widely used method for fabrication of custom‐shaped nanostructures.
However, to utilize such structures, one needs to controllably position them on nanoscale …