Flamac's objective is to become a competence centre in 'High Throughput Methodologies' to support research for the materials industry. Research includes Synthesis and characterization of submicron metal-oxide coatings via chemical vapor deposition.
The group is developing methods to sort carbon nanotubes according to their electronic properties, developing techniques for parallel assembling of carbon nanotubes, organic molecules and inorganic nanorods into functional units,and studying the electronic and optical properties of sorted carbon nanotube material, single-tube devices and nanotube-molecule hybrids.
The research activities of the Helmholtz Young Investigators group 'Metamaterials for Photonics' lead by Dr. Stefan Linden and Prof. Dr. Martin Wegener are devoted to fabrication and optical characterization of functional metallic nanostructures for optical frequencies.
The Nano- and Microsystems Program is aimed at developing application-tailored solutions. The group is pursuing interdisciplinary approaches based on a pool of technologies comprising mechanical, optical, magnetic, fluidic, electrical, materials science, and information technology competences. Our approach is characterized by the use of nanoscaled functional entities (materials, structures, components) in particular to develop innovative and economically attractive solutions.
The Fraunhofer Center for Nanoelectronic Technologies CNT in Dresden is an institution of the Fraunhofer-Gesellschaft created as a public-private partnership with industrial partners Infineon Technologies AG and Advanced Micro Devices AMD and other research partners. The new Center was established with the aim of rapidly transferring innovative, discrete process solutions for the fabrication of nanoelectronic systems on 300-mm wafers into the industrial manufacturing environment.
The Fraunhofer Institute for Ceramic Technologies and Systems covers the complete field of advanced ceramics, from basic research to applications. Services include the development and application of modern advanced ceramic materials, the development of industrial powder metallurgical technologies, and the manufacturing of prototypical components. Structural ceramics, functional ceramics and cermets are the main focus with emphasis on innovative complex systems which are applied in many industry sectors.
Starting from the know-how already available and the experience in classical robotics, sensor technology and development of very fast controllers, new drive systems and tools for precision positioning up to the nanometer range are developed.
Hybrid biological and synthetic particles have been developed which simulate the properties at the cell surfaces. On the surface of these cell-mimetic, i.e. cell-imitating, nanoparticles, membrane proteins are bound in such a way that their biological properties are fully maintained.
Main focus is the development of polymer systems for biomedical applications such as therapy, delivery or diagnostics. The lab studies a wide range of applied polymer systems including nanocarriers for drug delivery, copolymers for non-viral gene delivery and functional colloids for magnetic resonance imaging.
The Friedrich Miescher Institute is devoted to fundamental biomedical research. As part of the Novartis Research Foundation and one of the institutes of Novartis Corporate Research, the institute's goal is to exploit new technologies to further the understanding of the basic molecular mechanisms of cells and organisms in health and disease.