Nanotechnology Research Laboratories
Showing results 51 - 60 of 159 of research organizations in Germany:
An international association of companies and institutes in the field of microtechnology, nanotechnology and advanced materials.
The group's approach to exploring new properties arising in nanostructured materials is to integrate their research starting from the production of particles, their characterization and assembly to designed structures, the physical investigation of such structures and the modeling and understanding of the results.
The JONAS Research Network (Joint Research Network on Advanced Materials and Systems) incorporates four European partners: the I.S.I.S. Institute at Strasbourg University, Freiburg University, and ETH Zurich -†as academic partners, and BASF SE, as the industry partner. The close cooperation of three leading European universities with BASF enables all partners to†extend the scientific basis and their understanding of future materials and systems.
The Institute of Nanotechnology (INT) was founded in 1998 on the initiative of Forschungszentrum Karlsruhe and the Universities of Karlsruhe and Strasbourg. The institute aims at performing research in selected fields of nanotechnology on a worldwide accepted level.
Research topics: Metamaterials, Photonic Crystals, Optical Near-Field Spectroscopy.
Research, development, and consulting are the main tasks of the LZH.The close cooperation between production engineers, material scientists, and physicists makes it possible that interdisciplinary solutions are found in all fields of laser applications, including nanotechnology.
The institute is part of the Leibniz Institute for Solid State and Materials Research.
Chemical nanotechnology that has been highly developed by the INM represents a new dimension in nanoscience, which was dominated by physics for a very long time.
The Leibniz Institute for Surface Modification carries out basic and applied research on physical and chemical mechanisms which are important at fabrication and modification of isolating, metallic, semi-conducting and polymeric surface layers. Low-energetic ions, electrons, plasma as well as VUV and UV photons are employed.
The researchers at the IPF work towards understanding the effects of interfaces and the utilization of interface design in material development, in which nanotechnological aspects as well as interfaces to biosystems are of great importance.