The main aim of the Master's Degree is to provide students with solid, interdisciplinary training that will make it possible to respond to the challenges of scientific and technological development. Students will learn about new tools for fabricating, nanohandling and characterizing materials, devices and systems of nanometric size that are necessary for undertaking experimental work.
The Interuniversitary Master in Nanosciencie and Molecular Nanotechnology does not have precedents nationally since he discusses the aspects placed in the intersection of one science at his peak as he is Nanosciencie with the more traditional molecular systems . It influences, therefore, scientific areas of present-day interest like Molecular Electronics , Molecular Magnetism , the Supramolecular Chemistry , Physics at Superficies, or the Molecular Materials Science.
The course objectives are to provide appropriate scientific, technological and socio-economic training enabling the student to conduct research / innovation tasks in microelectronics and nanoelectronics.
This Master constitutes an ambitious interuniversitary action that involves Lecturers, Professors and Researchers from groups with a significant activity in the fields of Nanoscience and Nanotechnology. This involves four of the main Universities in Catalonia (including two of the main Research and Technological Universities in Spain, located in Barcelona) and research institutes in the areas of Barcelona and Tarragona (including Institutes integrated in the Spanish Superior Research Council (CSIC)), under the coordination of the University of Barcelona.
This official Master from Zaragoza University (Spain) has a duration of 18 months and comprises 75 ECTS credits. The course is suitable for graduates with science, engineering, medicine or related degrees keen to develop careers at the forefront of nanoscience and nanotechnology. The course is multidisciplinary and aims to provide students with fundamental knowledge, practical experience, and skills in the fabrication and characterization of nanostructured materials and devices with applications in key areas of nanochemistry, nanophysics, and nanobiomedicine.