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We study complex molecular systems on the nanoscale. Our research is both fundamental and oriented towards technological applications, including instrumentation development.
We prepare complex molecular architectures by Langmuir-Blodgett and Self-Assembly techniques, and we characterize them by several structural and dynamical experimental methods. The applications are focussed on: food science, molecular electronics, biotechnological and biomedical applications.
On the fundamental side, we are interested in the dynamics of nanostructured disordered systems, with particular reference to glasses and the glass transition in restricted dimensionality.
People
selected publications
2D dynamical arrest transition in a mixed nanoparticle-phospholipid layer studied in real and momentum spaces Scientific Reports(2015)
Revealing the fast atomic motion of network glasses Nature Communications (2014)
Two-Dimensional DPPC Based Emulsion-like Structures Stabilized by Silica Nanoparticles. Langmuir 30, 11504–11512 (2014). doi:10.1021/la502183t
Synchrotron x-ray techniques for the investigation of structures and dynamics in interfacial systems. Current Opinion in Colloid and Interface Science (2014)
Heterogeneous dynamics of a 2D gel of gold nanoparticles Physical Review Letters (2012)
Available Instrumentation
- Langmuir troughs for ellipsometry, interfacial rheology, in-situ microscopy and deposition
- SEM with Microanalysis