Persistence and Tenacity determine successful work!
Persistence and Tenacity determine successful work!
Persistence and Tenacity determine successful work!
Persistence and Tenacity determine successful work!
I am passionate to exploit science and technology for designing and implementing agile solutions for business, technical and scientific challenges.
To this end, I combine my technical and analytical expertise in material science and chemical/polymer engineering with my team and management skills.
My diverse experiences at different institutes and industry sections in the US, Switzerland, and Sweden have characterized my methodological teamwork & independence in tackling challenges in cross-functional and multi-disciplinary teams.
Currently, I am working as Technology Consultant at NKT Technology Consultancy, where the focus is to deliver unmatched solutions to different material and energy sectors (mainly power grid and cables) for promoting a greener world. To this end, I combine my strong technical and research background with my effective management skills in leading and successfully finalizing multiple projects with technical and financial optimization
Before joining NKT HV Cables, I worked as a postdoctoral researcher at Chalmers University of Technology in collaboration with the Swedish National Laboratory, MAX IV Lab in Lund. MAX IV facility have the highest quality of X-rays available to scientists from academia and industry. These X-rays are used to understand, explain, and improve the world around us.
My research led to the design and development of a state-of-the-art Rheo-SAXS sample environment facilitating unique testing possibilities, as well as supporting Swedish academic and industrial strengths.
In Switzerland, I worked as a senior researcher at Adolphe Merkle Institute (AMI), Fribourg with a focus on block copolymer thin films. By employing cutting-edge processing and characterization techniques, we fabricated templates for diverse optical and lithographic applications.
I did my Ph.D. at ETH Zürich, where I investigated the diffusion process across lipidic membranes using experimental techniques coupled with theoretical interpretation. Furthermore, I extensively explored principal mechanisms of self-assembly in Lyotropic Liquid Crystals using several spectrometries, light scattering techniques, and rheological methods combined with computational approaches. Before joining ETH Zürich, I accomplished a Master of Science in chemical engineering along with an interdisciplinary graduate minor in computational science at the University of Tennessee, where I investigated the structural translations and flow instabilities of polymer solutions in prototypical curvilinear flows.
My areas of expertise lie in extensive spectra:
I like adventures. Swing dance, running and table tennis stand as my favorite sports. Besides, I have touched skiing during my stay in Switzerland and this would mean visiting the slopes of Alps. Last but not the least, literature, languages, and history are my favorite topics to discuss about.