The SAS proposals for participation in FP6 projects
are listed in blocks according to the FP6 priority theme structure



FP6
priority
Title of the proposals
link
 
 
 
1: 1.1.3
Nanotechnologies and Nanosciences, Knowledge-based Multifunctional Materials and New Production Processes and Devices
 
1.1.3
Development and application of transient methods for measuring of thermophysical properties in technology
1.1.3
Novel biocatalysts in synthesis and transformation of semisynthetic betalactam antibiotics
1.1.3
Functionally graded materials
1.1.3
Database of the building materials properties relevant to hygrothermal damage modelling and simulation needs
1.1.3
Development of knowledge based multifunctional intelligent materials and constructions in structural engineering
1.1.3.1
Physics and local atomic orderig in modern nanoscale systems prepared from amorphous state
1.1.3.1
Nanoparticles and subnanometric multilayered systems
1.1.3.1
Multifunctional Ceramic Nano-Composites with Self-Diagnostic Ability
1.1.3.1
Advanced nanostructured magnetic materials with improved functional properties
1.1.3.1
Preparation of bulk nanocrystalline materials by milling
1.1.3.1
Application Possibilities of Biogenesis Environmental Processes and Bio-corrosion of Mineral Structures in the Techniques of Nanodispersions and Composites Preparation
1.1.3.1
Nanoscale Complex Oxides Prepared by High-Energy Milling Method: Structural Disorder, Spin Configuration and Thermal Stability
1.1.3.1
Transmission electron microscopy studies of the microstructure of powders, interfaces, thin layers and bulk nanomaterials
1.1.3.1
Development of bulk nanostructured aluminium based materials prepared by Equal-Channel Angular Pressing of nanopowders or amorphous ribbons
1.1.3.1
Molecular thermodynamics of key confined systems in applications of polymers
1.1.3.1
New functionalized polymer nano-materials, their preparation, processing and exploitation
1.1.3.1
Application of magnetizable systems in biomedicine
1.1.3.1
Free volume in nano sized systems
1.1.3.1
Structural characterization of nanomaterials through computational modelling
1.1.3.1
Superconducting weak links for SQUIDs and microwave devices
1.1.3.1
Nanostructures for sensors, nanometrology and cryoelectronic devices
1.1.3.1
Effect of biochemical processing conditions on the formation of silicate nanoparticles
1.1.3.1
Development and Characterization of Advanced Ceramic Nanocomposites
1.1.3.1.5
Development of magnetic sorbents by application of nanotechnologies
1.1.3.2
Low loss Bi-2223 and high current MgB2 superconductors
1.1.3.2
Polysaccharide-based polymers with tailor-made functional properties
1.1.3.2
Nanomaterials containing clay minerals
1.1.3.2
Reliability of cast TiAl-based components for applications in gas turbine industry
1.1.3.2
Increase of performance of multiphase nickel-based intermetallics for high temperature structural applications
1.1.3.2
Advanced materials for joining
1.1.3.2
Metal matrix composites for waste heat removing
1.1.3.2
Thermal and stress analysis and fracture of functionally graded materials
1.1.3.2
Oxide thin films for cryoelectronics and sensors of magnetic field
1.1.3.2
Grain boundary engineering of advanced metallic materials
1.1.3.3
Development of the biosensors on the solid support.