Joachim Fritzsche
Originating from Burgdorf, Germany, I obtained my diploma in Physics from Hanover University (2004) for my work on spin dephasing in two-dimensional semiconducting systems. In 2008, I received my PhD from the Katholieke Universiteit Leuven (Belgium), where I studied superconductor/ferromagnet-hybrids and their potential to locally control superconductivity with magnetic domains. I joined the Biophysics group at Gothenburg University (Sweden) in 2010, focusing on visual studies of genomic DNA at the single molecule level. At Chalmers (since 2012), I explore ways to implement nanoplasmonic sensing in nanofluidic systems.

Showing 39 publications
Nanoplasmonic−nanofluidic single-molecule biosensors for ultrasmall sample volumes
Operando detection of single nanoparticle activity dynamics inside a model pore catalyst material
A nanofluidic device for parallel single nanoparticle catalysis in solution
Fluorescence microscopy of nanochannel-confined DNA
Hairpins in the conformations of a confined polymer
Topographically Flat Nanoplasmonic Sensor Chips for Biosensing and Materials Science
A nano flow cytometer for single lipid vesicle analysis
Flux penetration in a superconducting film partially capped with a conducting layer
Single Particle Nanoplasmonic Sensing in Individual Nanofluidic Channels
Single Particle Nanoplasmonic Sensing in Individual Nanofluidic Channels
Rapid Tracing of Resistance Plasmids in a Nosocomial Outbreak Using Optical DNA Mapping
Visualizing the Nonhomogeneous Structure of RAD51 Filaments Using Nanofluidic Channels
New technologies for DNA analysis - a review of the READNA Project
Fast size-determination of intact bacterial plasmids using nanofluidic channels
Using nanofluidic channels to probe dynamics of RAD51-Filaments
Unfolding of nanoconfined circular DNA
Nanoconfined Circular and Linear DNA: Equilibrium Conformations and Unfolding Kinetics
Extension of nanoconfined DNA: quantitative comparison between experiment and theory
Visualizing the entire DNA from a chromosome in a single frame
Using Nanofluidic Channels to Probe the Dynamics of Rad51-DNA Filaments
Probing Physical Properties of a DNA- Protein Complex Using Nanofluidic Channels
Classical analogy for the deflection of flux avalanches by a metallic layer
Controllable morphology of flux avalanches in microstructured superconductors
Enhanced pinning in superconducting thin films with graded pinning landscapes
Probing the Physical Properties of a DNA-Protein Complex Using Nanofluidic Channels
What do photons do to fluorescently stained DNA in confinement?
Probing physical properties of DNA-protein complexes using nanofluidic channels
Vortex ratchet induced by controlled edge roughness
Lipid-Based Passivation in Nanofluidics
A lipid-based passivation scheme for nanofluidics
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