The 2-year master program aims to teach students the fundamentals in biophysics and bio-nanotechnology with a twofold aim: to use nanotechnological approaches to better characterize and understand complex molecular machines such as biomolecules, but also to harness these molecules in technological systems or use them as templates or model systems for a bottom-up nanotechnology.
The Master's Program in Organic and Molecular Electronics is designed to provide students with professional skills needed to advance a successful international career in the cutting edge field of organic electronics. It offers an interdisciplinary study program comprising physics, chemistry, electrical engineering and materials science. The close collaboration with industry partners enables a highly practice-oriented education. Moreover, we strongly focus on developing soft skills required in an everyday professional lives of our future graduates, such us project management, patent law, and much more.
The group is dealing with the development and the application of structure determination methods in solids down to atomic resolution. The intention is to correlate the structure with physical properties.
The University of Dortmund covers a wide range of research activities by different chairs in the field of micro- and nanostructures. The participating workgroups have affiliated in the research cooperation micro- and nanostructures to coordinate the activities within the university and with external partners.
Zunächst werden im Bachelor-Studiengang 'NanoEngineering' die grundlegenden Methoden der Mathematik und Naturwissenschaften erarbeitet. Die ingenieurwissenschaftlichen Grundlagen setzen sich aus Modulen des Maschinen- und Anlagenbaus mit den Schwerpunkten Mechanik und Thermodynamik, Elektrotechnik, Materialwissenschaften und Informatik zusammen. Parallel hierzu werden Grundlagen der Nanotechnologie aufgebaut.
CeNIDE is based on the strongly interdisciplinary research excellence in the area of Nanotechnology at the University Duisburg-Essen. This includes an exceptionally broad knowledge base in fundamental nanoscience, unique fabrication facilities for nanoscale materials in large quantities, and experience in questions of scalability and reliability.
Der Master-Studiengang besteht aus zwei Vertiefungsrichtungen, Nanoprozesstechnologie und Nano(opto)elektronik. Beiden Richtungen sind einige Veranstaltungen gemeinsam, in denen vor allem erweiterte Grundlagen erarbeitet werden.
Research in the Hirsch Group is focused among other things on fullerene based architectures and materials, chemical functionalization of new carbon-allotropes, and supramolecular aggregates based on dendritic systems.