Nanotechnology Research Laboratories

 

Showing results 91 - 100 of 162 of research organizations in Germany:

 
(in German) A networking initiative between academic working groups and industry.
Der Studiengang vermittelt Kenntnisse und Fähigkeiten in der Herstellung, Prüfung, Verarbeitung und Verwendung von Werkstoffen, z.B. von Metallen, Kunststoffen, Nichtmetallisch-Anorganischen Werkstoffen und Werkstoffen der Verbund- und Nanotechnologie.
The mission of the PDI is to perform materials research, solid state physics, and nanotechnology on low-dimensional structures. Activities include nanofabrication and nanoanalytics.
This joint effort gathers a number of leading German research institutions from the Max Planck Society, the Helmholtz Society, and the Fraunhofer Society together with partners from Germany's Photonics industry. The PhoNa consortium conducts research on a broad spectrum of linear and nonlinear Photonic Nanomaterials, as e.g. metamaterials, photonic crystals, plasmonics, diffractive structures, and their application in fields such as biology, chemistry and material sciences.
The CNI is a center of excellence for nanoelectronics at the Research Center Jülich and provides an excellent basis for future developments of nanoelectronics and IT. To identify technology drivers the research areas cover quantum-electronic, magneto-electronic, ferro-electric and molecular nanostructures as well as Terahertz-electronics and bio-signal processing.
Multidisciplinary basic research into the nature and limits to self-organization in combinatorially complex chemical systems. Electronic micro-and nanosystems provide controlled and programmable environments for studying and optimizing such systems, and so our research is also forging a link between the three rapidly expanding technologies: Information Technology (IT), Biotechnology (BT) and Nanotechnology (NT).
ICAMS focuses on the development and application of a new generation of simulation tools for multi-scale materials modelling with the aim of reducing development cost and time for new materials.
Der interdisziplinäre Studiengang Mikrotechnologie und Nanostrukturen kombiniert Grundlagen der Physik mit den Ingenieurwissenschaften mit dem thematischen Schwerpunkt Miniaturisierung. Dem fächerübergreifenden Systemgedanken wird dabei besondere Bedeutung beigemessen.
Der interdisziplinäre Studiengang Mikrotechnologie und Nanostrukturen kombiniert Grundlagen der Physik mit den Ingenieurwissenschaften mit dem thematischen Schwerpunkt Miniaturisierung. Dem fächerübergreifenden Systemgedanken wird dabei besondere Bedeutung beigemessen.
The group works in mostly three areas: nanomaterials, nanophysics and nanophotonics