I am graduated within Biological Science - Bio-molecular field;
I got a Biochemical and Biomolecular Science PhD at the University of Catania, working on Bio-molecules immobilization on SiO2 surface for biomedical, environmental and microelectronics applications. I carried out the work of degree thesis and PhD thesis into the Microelectonic and Micrositem Institute of CNR of Catania.
During the PhD period I work on immobilization protocol of biomolecules in SiO2; I had optimized the covalent immobilization protocol, using XPS, AFM, SEM-EDX investigation techniques.
I spent a part of my PhD time at CEA-LETI-MINATEC, Grenoble in order to work on hybrid organic molecules / silicon devices. This topic was better developed during a post-Doc position, which I got in the same laboratory of CEA Grenoble. Through this experience I acquired new competencies in the field of electrical device testing and physics.
I attended a summerschool on "micro and nanotechnology for label free sensing" at Technical University of Denmark in August 2012.
I worked in the NBS group of Institute for Health and Consumer Protection (Joint Research Centre) as post-Doc to work on Radar project. The mission was to develop the sensing layer for a label-free biosensor, using SPR sensor detection.
I worked in the DTSi service of CEA Grenoble for identifying an innovative bio-marker detection platform.
During my PhD and my working experiences I acquire expertise in numerous fields including optical and structural characterization of biological material immobilized into Si or SiO2, preparation methods of biological samples for TEM and SEM assays, surface chemical functionalization and chemical immobilization methods of biological molecules on SiO2. I developed my team work skills and the capacity to work in multidisciplinary environment acquiring versatility and communication abilities.
I got a Biochemical and Biomolecular Science PhD at the University of Catania, working on Bio-molecules immobilization on SiO2 surface for biomedical, environmental and microelectronics applications. I carried out the work of degree thesis and PhD thesis into the Microelectonic and Micrositem Institute of CNR of Catania.
During the PhD period I work on immobilization protocol of biomolecules in SiO2; I had optimized the covalent immobilization protocol, using XPS, AFM, SEM-EDX investigation techniques.
I spent a part of my PhD time at CEA-LETI-MINATEC, Grenoble in order to work on hybrid organic molecules / silicon devices. This topic was better developed during a post-Doc position, which I got in the same laboratory of CEA Grenoble. Through this experience I acquired new competencies in the field of electrical device testing and physics.
I attended a summerschool on "micro and nanotechnology for label free sensing" at Technical University of Denmark in August 2012.
I worked in the NBS group of Institute for Health and Consumer Protection (Joint Research Centre) as post-Doc to work on Radar project. The mission was to develop the sensing layer for a label-free biosensor, using SPR sensor detection.
I worked in the DTSi service of CEA Grenoble for identifying an innovative bio-marker detection platform.
During my PhD and my working experiences I acquire expertise in numerous fields including optical and structural characterization of biological material immobilized into Si or SiO2, preparation methods of biological samples for TEM and SEM assays, surface chemical functionalization and chemical immobilization methods of biological molecules on SiO2. I developed my team work skills and the capacity to work in multidisciplinary environment acquiring versatility and communication abilities.
International collaboration
LETI
May 2008
to September 2008
Part-time
Grenoble
France
- Study of hybrid organc molecul/silicon memory
Detailed Description
- This work consisted in the structural characterization of functionalized Silicon surface through Atomic Force Microscopy (AFM ), Scanning Tunneling Microscope (STM) and Scanning Transmission Electron Microscopy (STEM). A Redox molecule (Ferrocene) was grafted in Si surface using two methods: direct and indirect (by linker). The results obtained in this work allowed to show the uniformity of organic layers in both case.
Company website
