| Project goal |
Groupname |
City |
Country |
|
|
|
|
| Micro sensors integration into vapor-chamber heat spreaders |
IMEP/Micro Nano Systems |
Grenoble |
France |
| Active Dielectric/Semiconductor Waveguides |
Radio Laboratory |
Espoo |
Finland |
| Influence of buffer layers on performances of membrane-type THz HEB |
LERMA |
PARIS |
France |
| Sub-micron Distributed Feedback Laser (DFB) Diode Development |
Modulight, Inc. |
33720 Tampere |
Finland |
| Self Aligned Inverted Taper Fiber Attach |
Nanophotonic Technology Center |
Valencia |
Spain |
| Nanotechnologies for Diffractive Optical Elements: waveguide grating biosensors for monitoring water quality. |
Optoelectronics Devices & Systems |
BARCELONA |
Spain |
| Superconducting Microwave RF MEMS |
Emerging Device Technology Research Centre |
Birmingham |
UnitedKingdom |
| A Highly Sensitive Nano-Sensor for Passive Terahertz Imager |
Nanophysics&Nanotechnology |
Egham |
UnitedKingdom |
| MBE growth of InAs quantum dots for QD-IBSC |
Solar Cell Physics Group |
Trondheim |
Norway |
| Cryogenic Low noise Amplifiers for radio astronomy Receivers |
RF and Microwaves. Dept Communications Engineering |
39005 Santander |
Spain |
| Silicon compatible optical interference filters for mid-IR |
Laboratory for Electronic Instrumentation |
Delft |
TheNetherlands |
| Nanofabrication of metallic nanoelectrodes as building blocks for the development of supramolecular wires prototypes |
Nanochemistry Laboratory |
Strasbourg |
France |
| Fabrication of two-cell Josephson flux qubits |
A. Ustinov Group |
D-91058 Erlangen |
Germany |
| Counting electrons produced by Surface Acoustic Wave-driven single electron pump |
Low dimensional semiconductor devices (within the Optoelectronics group) |
Cambridge, CB3 0HE |
UnitedKingdom |
| Microfabricated devices for the nanomanipulation and photonic interrogation of single DNA molecules in fluid flows; the direct diagnosis of cancer from blood serum. |
University of Southampton |
Highfield, SO17 1BJ |
UnitedKingdom |
| Coherence in solid state QUantum >Information Technology devices |
NANOLAB-QUIT, Niels Bohr Institute |
DK-2100 Copenhagen |
Denmark |
| Single Wall Carbon Nanotube Field Effect Transistors for gas sensing applications |
Chemical Sensors Group, Demokritos |
Athens |
Greece |
| Organic Spin Transistor |
Spintronic Devices |
Bologna |
Italy |
| Fabrication of thick LC sample cells with slippery surfaces |
Liquid Crystal Group |
Stuttgart, 70569 |
Germany |
| FABRICATION AND EVALUATION OF MICRO/NANOWIRES AND LOW-k DIELECTRICS BASED ON AMMONIUM SILICON FLUORIDE CRYPTOCRYSTALS GROWN ON SILICON |
MESOSCOPIC SYSTEMS LABORATORY |
KOCAELI |
Turkey |
| Realization of submicron biepitaxial Josephson junctions for fundamental studies on HTS. |
High Tc Junctions - Naples |
Napoli |
Italy |
| Carbon Nanotube Device Fabrication |
Institut Català de Nanotecnologia |
Bellaterra |
Spain |
| Creation of Ultra-Thin Si1-xGex-OI and GeOI Templates for Nanometre Regime |
SiGeOI Technologist |
London SW14 8AB |
UnitedKingdom |
| Development of Terahertz Monolithic Integrated Planar Schottky Diode Circuits |
Electromagnetic Systems |
Kgs. Lyngby |
Denmark |
| SU-8 Multilayer-electronic Control for Reconfigurable Microfluidic Systems. |
Biomolecular Information Processing (BioMIP) |
Germany |
Germany |
| Photonic Crystal-enhanced Light Extraction from Light Emitting Diodes |
The Photonic Crystal Research Group |
St. Andrews, Fife, KY16 9SS |
UnitedKingdom |
| Use of HfO2 as tunneling layer in the nanocrystal based flash memory cells |
Semiconductor Materials and Devices (SMD) |
Ankara |
Turkey |
| SOI-MEMS Based Biosensing and Imaging Devices |
Optical Microsystems Laboratory |
Istanbul |
Turkey |
| Nanodevice Technology for Cosmology Instruments |
Experimental radio/mm Cosmology |
Oxford, Ox1 3RH |
UnitedKingdom |
| Nanofabricated devices for quantum metrology |
Quantum Detection group |
Teddington |
UnitedKingdom |
| Size effect on the piezoresistive coefficient in silicon nanostructures |
EMIC |
Louvain-La-Neuve |
Belgium |
| CHARACTERISATION OF MICRO- AND NANOPARTICLES FOR BIOSENSING USING SCANNING PROBE TECHNIQUES |
Nanobioelectronics & Biosensors Group |
Bellaterra-Cerdanyola del Vallès-Barcelona |
Spain |
| Fabrication of resonant MEMS devices |
ScanNanoTek |
Turku |
Finland |
|
AMOP Group |
|
Cavendish laboratory, University of Cambridge |
| Efficient nanomaterial based electrodes for potentially implantable biofuel cells |
Department of electrode processes |
Warsaw |
Poland |
| Optimization of dry etch processes for the production of Fused Silica NIL stamps |
NIL Technology ApS |
Kongens Lyngby |
Denmark |
| Thermal RElaxation Processes by Profile Engineering |
Quantum Detectors (QD) |
Karlsruhe |
Germany |
| Nanostructuring of Metal Oxides for Studies of Magnetodynamics |
Metal Oxide Spintronics Group |
Trondheim |
Norway |
| VertIcal Polymer Nanowires |
LowT NanoElectronics Group |
1348 Louvain la Neuve |
Belgium |
| Biosensors based on Long-Range Plasmonic waveguides (BIOPLAS) |
Nanobiosensors and Molecular Nanobiophysics Group |
Bellaterra, Barcelona |
Spain |
| Comparative studies of HElical Structure UNwinding for homeotropically and planar aligned chiral Liquid Crystals |
Liquid Crystal Laboratory |
Prague |
theCzechRepublic |
| Electronic transport mechanisms in supramolecular layers and nanowires |
Molecular Electronics Group |
Athens |
Greece |
