Nanotechnology Research in

The overall objective of EuroSQIP is to develop a 3/4-qubit quantum information processor (QIP) capable of running elementary quantum algorithms and protocols; demonstrating quantum state control of a macroscopic multi-partite system; demonstrating entanglement and entanglement transfer.

The Department of Chemistry & Nano Science offers a comprehensive program on the fundamentals of chemistry for students who wish to have a background for graduate study in chemistry as well as for students who want a professional job in related fields. The curriculum covers various fields of chemistry including analytical, physical, polymer, organic, inorganic, and bio- chemistry. It also provides an opportunity for research experience in the laboratory throughout the senior year.

EXCELL's objectives are aimed at overcoming the fragmentation of the European research landscape in the area of multifunctional films. EXCELL moves frontiers of science and technology related to multifunctional films and improves European competitiveness by technology transfer. EXCELL's results will find a wide range of applications such as low-friction coatings earmarked for a wide use in mechanical engineering, new protective anticorrosion nano-films to be used in construction, marine and land transportation, etc., novel coatings with imbedded nano-clusters to be used in computer industry, etc.

Der Studiengang Bio- und Nanotechnologien fasst die Schlüsseltechnologien Biotechnologie, Umwelttechnik, Nano- und Oberflächentechnik zusammen.

FAST-DOT is an experimental program funded under the Seventh Framework Programme of the European Union to: Enable widespread application and further development of laser based photonics; Demonstrate new applications of lasers in biotechnology and medical fields; Develop new industrially integrated design rules for the production of specific quantum dot materials; Unlock the potential of quantum dot materials in biophotonics; Accelerate the implementation of quantum dot lasers through European SMEs and companies; Train a new generation of researchers in the range of new technological areas for quantum dot devices.

FIBLYS (or FIB anaLYSis) is a European funded project where leading researches and industry collaborate to create a new apparatus for nanotechnology that will unite nano-structuring, nano-manipulation, nano-analytic and nano-vision capabilities in one unique 'multi-nano' tool. It is based on a dual Focused Ion Beam (FIB) and Scanning Electron Microscope (SEM) together with Scanning Probe Microscope (SPM) and optional possibility of important analytical capabilities such as Energy Dispersive X-ray Spectroscopy (EDX), 3D Electron Backscatter Diffraction (EBSD), Time-of-Flight Mass Spectrometry (TOFMS), Electron Beam Induced Current (EBIC) or Cathodoluminescence (CL).

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 objective of FLEXONICS is the development of ultra-high barrier nanoscale films for r2r encapsulation of flexible electronics.

The Institute's mission is to apply world-class, fundamental research and knowhow to provide novel, robust solutions to the challenges facing Australia, in the general areas of energy, health and water.

The Bavarian research cooperation for miniaturised analysis techniques using nanotechnology.

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.

FramingNano is an FP7 project funded by the European Commission. Its primary mission is to facilitate an international multi-stakeholder dialogue aimed at framing future regulatory actions that will foster the responsible development of nanotechnology.

This CMN is part of the Fraunhofer Institute for Applied Optics and Precision Engineering.

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.

ENAS deals with smart systems integration with micro- and nanotechnologies. Reasearch focuses on development of MEMS/NEMS, 3D-integration and reliability.