Experience

Ecole Supérieure des Techniques Aéronautiques et de Construction Automobile

• France
• Higher Education
• 100 - 200 Employee

• Professor and academic advisor

  • Aug 2022 - Present

  Teaching, project supervision, academic curriculum development, and other responsibilities Teaching, project supervision, academic curriculum development, and other responsibilities



Agilent Technologies

• Biotechnology Research
• 700 & Above Employee

• Assistant professor

  • Oct 2014 - Dec 2021

  Teaching and research position et the department of Mechanics Teaching and research position et the department of Mechanics



Beirut Arab University (http://www.bau.edu.lb/SubPage.aspx?pageid=99)

• Tripoli- Lebanon

• Part-time Lecturer

  • Sep 2014 - Feb 2021

  Lecturer at the department of physics-faculty of science Lecturer at the department of physics-faculty of science



Al-Manar University of Tripoli

• Lebanon
• Higher Education
• 1 - 100 Employee

• Part-time Instructor

  • Oct 2013 - Feb 2014

  Teaching of general physics and electronics at the Faculty of Engineering and Information Technology of Al-Manar University of Tripoli. Teaching of general physics and electronics at the Faculty of Engineering and Information Technology of Al-Manar University of Tripoli.



University of Strasbourg

• France
• Higher Education
• 700 & Above Employee

• Postdoctoral position

  • Oct 2011 - Sep 2013

  The objective of the project was to use microfluidic technology to miniaturize a portable gas sensor. The sensor is already patented, but the trick is to make it smaller, use fewer chemicals, and be more sensitive all at once, which is doable with microfluidics. The project calls for Fluid Mechanics, Microsystems Engineering, Optics and Analytical Chemistry. The objective of the project was to use microfluidic technology to miniaturize a portable gas sensor. The sensor is already patented, but the trick is to make it smaller, use fewer chemicals, and be more sensitive all at once, which is doable with microfluidics. The project calls for Fluid Mechanics, Microsystems Engineering, Optics and Analytical Chemistry.



LAAS-CNRS

• France
• Government Administration
• 300 - 400 Employee

• Ph.D. student

  • Oct 2008 - Sep 2011

  The manipulation of small volumes of fluids and their applications in a variety of scientific fields, including chemistry, biomedicine, molecular biology, optics, and many others, are described by the relatively new field of microfluidics. My Ph.D. research was primarily in this fascinating area. Designing, creating, and describing micro- and nanosystems in which the creation of bubble and droplet networks was carried out. It has been possible to obtain hexagonal microbubble networks with… Show more The manipulation of small volumes of fluids and their applications in a variety of scientific fields, including chemistry, biomedicine, molecular biology, optics, and many others, are described by the relatively new field of microfluidics. My Ph.D. research was primarily in this fascinating area. Designing, creating, and describing micro- and nanosystems in which the creation of bubble and droplet networks was carried out. It has been possible to obtain hexagonal microbubble networks with predefined defects. These networks, which have flawlessly smooth interfaces and highly ordered monodisperse particles, can be used as optical functionalities (hollow optical waveguide or optical filter, for instance). Additionally, a laser light-based optical setup for characterizing materials was created. Show less The manipulation of small volumes of fluids and their applications in a variety of scientific fields, including chemistry, biomedicine, molecular biology, optics, and many others, are described by the relatively new field of microfluidics. My Ph.D. research was primarily in this fascinating area. Designing, creating, and describing micro- and nanosystems in which the creation of bubble and droplet networks was carried out. It has been possible to obtain hexagonal microbubble networks with… Show more The manipulation of small volumes of fluids and their applications in a variety of scientific fields, including chemistry, biomedicine, molecular biology, optics, and many others, are described by the relatively new field of microfluidics. My Ph.D. research was primarily in this fascinating area. Designing, creating, and describing micro- and nanosystems in which the creation of bubble and droplet networks was carried out. It has been possible to obtain hexagonal microbubble networks with predefined defects. These networks, which have flawlessly smooth interfaces and highly ordered monodisperse particles, can be used as optical functionalities (hollow optical waveguide or optical filter, for instance). Additionally, a laser light-based optical setup for characterizing materials was created. Show less



LAAS-CNRS

• France
• Government Administration
• 300 - 400 Employee

• Internship in the field of Nanotechnology

  • Feb 2008 - Jul 2008

  The trainee's research was centered on creating a nanotechnology that would enable the creation of precise nanofluidic systems. Techniques for bonding, cleaning, and special etching were used. SEM, AFM, and profilometer characterization methods were also used. Finally, capillary invasion was investigated under the microscope, and Matlab image processing functions were used to automatically analyze the recorded films for the invasion of liquids. The trainee's research was centered on creating a nanotechnology that would enable the creation of precise nanofluidic systems. Techniques for bonding, cleaning, and special etching were used. SEM, AFM, and profilometer characterization methods were also used. Finally, capillary invasion was investigated under the microscope, and Matlab image processing functions were used to automatically analyze the recorded films for the invasion of liquids.