Experience

CNR-IMM (Istituto per la microelettronica e microsistemi)

• Italy
• Think Tanks
• 1 - 100 Employee

• Scientist

  • Jul 2023 - Present

  Large-area CVD deposition of graphene and 2D materials Large-area CVD deposition of graphene and 2D materials



Orthokey s.r.l.

• Italy
• Medical Equipment Manufacturing
• 1 - 100 Employee

• Consultant

  • Mar 2023 - Jun 2023

  Experimental feasibility study for the development of an innovative 3D printer for the generation of tissue structures for regenerative medicine. The goal is to design a device that implements magnetic technology in a bioprinter capable of three-dimensionally printing tissues with a complexity not achievable with current technology. In the long term, this will provide a clinical solution for personalized and minimally invasive reconstructive medicine treatments. The work is based on the… Show more Experimental feasibility study for the development of an innovative 3D printer for the generation of tissue structures for regenerative medicine. The goal is to design a device that implements magnetic technology in a bioprinter capable of three-dimensionally printing tissues with a complexity not achievable with current technology. In the long term, this will provide a clinical solution for personalized and minimally invasive reconstructive medicine treatments. The work is based on the technology for magentic manipulation of nanoparticels and cells developed at ISMN-CNR Show less Experimental feasibility study for the development of an innovative 3D printer for the generation of tissue structures for regenerative medicine. The goal is to design a device that implements magnetic technology in a bioprinter capable of three-dimensionally printing tissues with a complexity not achievable with current technology. In the long term, this will provide a clinical solution for personalized and minimally invasive reconstructive medicine treatments. The work is based on the… Show more Experimental feasibility study for the development of an innovative 3D printer for the generation of tissue structures for regenerative medicine. The goal is to design a device that implements magnetic technology in a bioprinter capable of three-dimensionally printing tissues with a complexity not achievable with current technology. In the long term, this will provide a clinical solution for personalized and minimally invasive reconstructive medicine treatments. The work is based on the technology for magentic manipulation of nanoparticels and cells developed at ISMN-CNR Show less



CNR - ISMN

• Research Services
• 1 - 100 Employee

• Scientist

  • Mar 2017 - Mar 2023

  Fabrication of magnetic thin films and nanostructures for biosensing and fundamental research on nanomagnetism. Involved on development of microfluidic devices for detection of trace analytes and biomarkers via variation of diffusivity parameters of selectively functionalized magnetic nanoparticles. Fabrication of magnetic thin films and nanostructures for biosensing and fundamental research on nanomagnetism. Involved on development of microfluidic devices for detection of trace analytes and biomarkers via variation of diffusivity parameters of selectively functionalized magnetic nanoparticles.



ARC-Centro Ricerche Applicate s.r.l

• Italy
• Research Services
• 1 - 100 Employee

• Consultant

  • Dec 2016 - Feb 2017

  Preparation and writing of Horizon 2020 project on detection of Multiple Sclerosis biomarkers via plasmonic sensors. The project (MUESLI) has been submitted on January 19th in NMBP-13 call. Then I worked on regional projects (FSE funded) on nanotechnology and biosensing. Preparation and writing of Horizon 2020 project on detection of Multiple Sclerosis biomarkers via plasmonic sensors. The project (MUESLI) has been submitted on January 19th in NMBP-13 call. Then I worked on regional projects (FSE funded) on nanotechnology and biosensing.



Zirkonzahn Worldwide

• Italy
• Medical Equipment Manufacturing
• 1 - 100 Employee

• Research Engineer

  • Sep 2015 - Mar 2016

  Consulting work and technological scouting on optical tecnologies for 3d scanners – especially intraoral scanners - based on structured light, confocal microscopy, active wavefront sampling, light field photography and, above all, conoscopic holography Consulting work and technological scouting on optical tecnologies for 3d scanners – especially intraoral scanners - based on structured light, confocal microscopy, active wavefront sampling, light field photography and, above all, conoscopic holography



Veneto Nanotech

• Italy
• Nanotechnology Research
• 1 - 100 Employee

• Senior scientist

  • May 2010 - May 2015

  I currently work on designing and fabricating nanostructured plasmonic-based sensors for hydrogen detection. Plus activity on industrial application of diamond-based materials for cutting tools. I currently work on designing and fabricating nanostructured plasmonic-based sensors for hydrogen detection. Plus activity on industrial application of diamond-based materials for cutting tools.



Uppsala Universitet - Mälardalens Högskola (Department of Biology and Chemical Engineering)

• Research engineer

  • Dec 2008 - Jan 2010

  Position wihin the European Project Neuroprobes. In this project my task has been to analyze biocompatible coatings for implantable neuroelectronic interfaces by XPS, SEM and AFM.

• Post-doc

  • Nov 2006 - Nov 2008

  The project, funded by the Swedish Foundation for Strategic Research (SSF), was about fabrication and testing of advanced micro- and nanostructured chemical platform for movement and selective absorption of chemicals at the molecular regime (collaboration with University of Uppsala).



CNR IFN

• PhD candidate

  • 2004 - 2006