Queste sono le differenze tra la revisione selezionata e la versione attuale della pagina.
Entrambe le parti precedenti la revisione Revisione precedente Prossima revisione | Revisione precedente Prossima revisione Entrambe le parti successive la revisione | ||
lmn:orsi [22/09/2016 11:24] davide.orsi [Education] |
lmn:orsi [22/09/2016 15:57] davide.orsi |
||
---|---|---|---|
Linea 1: | Linea 1: | ||
====== Davide Orsi - Personal Page ====== | ====== Davide Orsi - Personal Page ====== | ||
- | {{ lmn:davide.orsi.jpg|Davide Orsi}} | + | {{:lmn:my_orcid_qrcode.png?nolink&80 |}} |
- | **Current Position: (May 2012 – May 2014)** | + | ORCID: [[http://orcid.org/0000-0003-3223-8622]]\\ |
- | Post. Doc. position at the University of Parma, Department of Physics and Earth Sciences. | + | Google Scholar: [[https://scholar.google.it/citations?user=OFhYsloAAAAJ&hl=it|List of publications]]\\ |
- | My research a is focused on the optical and mechanical characterization of nanostructures formed by nanoparticles at interfaces. | + | ResearchGate: [[https://www.researchgate.net/profile/Davide_Orsi]] |
- | I investigated the aggregation process that leads to the formation of a 2D colloidal gel network of gold nanoparticles, which seems to have some relevant similitude to percolation and network formation. We were able to characterize the interfacial dynamics and its heterogeneities using X-ray Photon Correlation Spectroscopy in Grazing Incidence geometry, performed at the air/water interface. | + | {{ :lmn:davideorsi_fototessera.jpg?nolink&200|}} |
+ | **Current Position: (May 2012 – )** | ||
+ | Post. Doc. position at the University of Parma, Department of Physics and Earth Sciences.\\ | ||
+ | **My research is focused on the characterization of the interfacial dynamics and mechanical response of films formed by nanoparticles at interfaces.** \\ | ||
+ | I investigated the aggregation process that leads to the formation of a 2D colloidal gel network of gold nanoparticles, which seems to have some relevant similitude to percolation and network formation. We were able to characterize the interfacial dynamics and its heterogeneities using X-ray Photon Correlation Spectroscopy in Grazing Incidence geometry, performed at the air/water interface. Using the same techniques, we have been able to characterize different dynamical regimes induced by silica nanoparticles of different philicity adsorbed/incorporated into phospholipid monolayers at the air/water interface.\\ | ||
+ | I am currently investigating inorganic nanostructures for Self-Lighted Photodynamics Therapy of Cancer, using CeF3 as a scintillator material to excite ROS production from ZnO under X-ray irradiation. | ||
+ | |||
+ | |||
+ | {{ :lmn:ttcf.png?nolink&200|}} | ||
+ | {{ :lmn:speckle.png?nolink&200|}} | ||
**Interests** | **Interests** | ||
- | * Organic/inorganic Hybrid nanostructures | ||
* Colloidal glasses and gels | * Colloidal glasses and gels | ||
+ | * Nanoparticles at fluid interfaces | ||
* X-ray scattering techniques (XPCS, SAXS) | * X-ray scattering techniques (XPCS, SAXS) | ||
- | * Informatics, electronics, computer science | + | * Organic/inorganic Hybrid nanostructures |
+ | * Neutron Scattering | ||
+ | * Langmuir techniques | ||
+ | * Dynamic Light Scattering | ||
+ | * AFM / SEM / Epifluorescence microscopy | ||
+ | * Raman Scattering | ||
+ | * Interfacial Rheology and Micro Rheology | ||
+ | * Multiple Particle Tracking | ||
===== Education ===== | ===== Education ===== |