My current research activities involve the development of nanomaterials and processes for the fabrication of compact and porous semiconductor metal oxide layers. I tend to favour a low-C footprint approach (aqueous precursors, low-temperature processing, roll-to-roll compatible deposition methods) to enable the commercialisation of novel products in the fields of 3rd generation photovoltaics and water purification based on the use of these advanced coatings. I also contribute to the characterization of a wide range materials across various projects and provide basic training on techniques such as FEG-SEM, surface area/porosimetry and X-Ray diffraction.
My teaching activities are spread across various portfolios of the College of Engineering: Foundation Year (EG-080: Fundamentals of Materials), Year 1 Materials and Chemical Engineering (EGA110: Instrumental and Analytical Chemistry); EGA113: Materials Case Studies) and Postgraduate Materials Engineering (EGS-M12: Applied Instrumental & Analytical Techniques, starting in February 2017)
Finally, I have joined the Employability Skills Team in November 2015 as the Materials Engineering Employability Champion. I offer support to all students in Materials Engineering with regards to their career development (CV surgery, mentoring, etc.) and develop links between our department and the industry to facilitate our students’ pathway towards employment. I also make sure that our students get linked to our professional body, the IOM3 (Institute of Materials, Minerals, and Mining), and work towards their Chartership.
Areas of Expertise
• Synthesis of metal oxide nanoparticles
• Formulation of colloidal precursors for coating and printing applications
• Fabrication of mesoporous and compact titanium oxide layers
• Self-assembly of nanoparticles into high-surface area porous structures
• Low-T processing of semiconductor oxide layers
• Characterisation of materials: XRD, Electron Imaging, Surface Area and Pore Size Measurements, FT-IR, Raman, and UV-Vis spectroscopy.
• 3rd Generation Photovoltaics
• Coatings for Water Purification Applicatoins
I graduated in 2005 from the department of Materials and Processing Engineering at the ENSIACET (Institut National Polytechnic, Toulouse, France). During my undergraduate studies, I took part in several scientific research projects related to the theme of science for fine arts through which I grew a real enthusiasm for materials investigation. One of my most significant research experience took place at the C2RMF (Le Louvre museum, Paris) where I completed a comparative study on the artificial acid-triggered ageing of industrial lead-glass and buried archaeological samples of church stained window and ceramic plates.
I carried on with my postgraduate studies in Montreal (Canada), where I completed a Fastrack (Master/PhD) program in the Department of Materials Engineering of McGill University, under the supervision of Prof. George Demopoulos, head of the Hydrometallurgy research team. My research project led to the development of a low-cost and scalable batch process for the synthesis of high surface area anatase and rutile TiO2 products. Later on in my PhD I focused on the development of water-based TiO2 pastes for the preparation of photoanodes used in Dye-Sensitized Solar Cells. During my time at McGill, I also worked on developing skills in materials characterization and gained particular expertise in using advanced analytical instruments such as FEG-SEM, XRD, BET surface area/porosimetry, Raman spectroscopy, etc… My experience at McGill University was complemented with teaching activities as well as… playing ice hockey!
I moved back to Europe in July 2011 and started to work as a Technology Transfer Fellow of SPECIFIC IKC. S
Join us on our social networks for all the latest updates, product/service announcements and more.