Nanotechnology Research - Non-University Institutes and Laboratories
Showing results 31 - 40 of 42 of non-university labs and institutes in Germany:
Research on dynamics and self organization covers nanobio complexity.
The mission of the Department Structure and Nano-/Micromechanics is: to develop experimental methods to perform quantitative nano-/micromechanical and tribological tests for complex and miniaturized materials;to unravel the underlying deformation mechanisms by advanced microstructure characterization techniques from the micrometer level down to atomic dimensions; to establish material laws for local and global mechanical behavior; and to generate nanostructured materials and high temperature intermetallic materials with superior mechanical properties.
A group of physicists, biologists, chemists and engineers conceiving inventing and utilizing optical microscopes with resolution at the nanometer scale to advance life sciences.
Dealing with chemical and physical aspects of nanoscience and nanotechnology.
Research efforts in the Department are centered on nanometer-scale science and technology, primarily focussing on solid state phenomena that are determined by small dimensions and interfaces.
The creation of novel materials with targeted functionalities is the ultimate goal in several scientific and technological fields, ranging from chemistry and pharmaco-chemistry to molecular electronics and renewable energies. Molecular modelling and simulation are vital components of the scientific investigation of materials, as well as essential tools to engineer novel materials with improved performances. Future advances in this field should systematically address the challenge of bridging the gap between simulations and experiments. To this end, a unifying theme of this research is the development of a modelling framework for the investigation of materials. Through the creative synthesis of traditional all-atom simulations, electronic structure methods, and rare events techniques, we apply a multiscale approach to the study of materials and nanostructures.
Four departments: Biomaterials, Colloid Chemistry, Interfaces as well as Theory and Bio-Systems. Current research topics are polymeric films, membranes, micro- capsules, organic and inorganic nano- structures, biomineralization, nanoreactors or molecular motors.
Experimental and theoretical research carried out at the Max Planck Institute of Microstructure Physics is primarily focussed on solid state phenomena that are determined by small dimensions and surfaces and interfaces. The investigations concentrate on establishing relations between the magnetic, electronic, optical, and mechanical properties of solids and their microstructure. Thin films and surfaces are investigated as well as nanocrystalline materials, phase boundaries and defects in bulk crystals.
Namlab, a joint venture of Qimonda Dresden GmbH and the Technical University of Dresden provides industry oriented materials science and research concentrating on new and promising nano-electronic materials for semiconductor applications of tomorrow.
A group of conceiving inventing and utilizing optical microscopes with resolution at the nanometer scale to advance life sciences.