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Magnetic nanomaterials

Magnetic nanomaterials. Network coordinator: Prof. Tadeusz Kulik. Thematic groups: Soft magnetic materials coordinator: Prof. Tadeusz Kulik Hard magnetic materials coordinator: Prof. Marcin Leonowicz Thin layers coordinator: Prof. Andrzej Maziewski.

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Magnetic nanomaterials

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  1. Magnetic nanomaterials Network coordinator: Prof. Tadeusz Kulik Thematic groups: Soft magnetic materials coordinator: Prof. Tadeusz Kulik Hard magnetic materials coordinator: Prof. Marcin Leonowicz Thin layers coordinator: Prof. Andrzej Maziewski 22 participants (+14 partners) 49 foreign partners

  2. Aims of creation of the Network • Principal goals of the Network are: • Co-ordination of activities of the research centres and industrial entities, • Permanent integration of research capabilities and specialisation of the research centres and industrial entities, • Joining of expertise of many research centres in common area and achievement of critical mass. • Preparation of national research centres (Members of the Network) to joining European Research Area, • Dissemination of common knowledge. • The research carried out by the Members of the Network is compliant with 3rd Thematic Area of 6 FP priorities: • Nanotechnologies and nanosciences, knowledge-based multifunctional materials, and new production processes and devices

  3. Members of the Network (1) • Institute of Experimental Physics, University in Bialystok • Prof. Andrzej Maziewski, Prof. Krzysztof Szymański • Institute of Materials Science, Silesian University, Katowice • Prof. Grzegorz Haneczok • Institute of Molecular Physics, PAS, Poznań • Prof. Bogdan Idzikowski, Prof. Feliks Stobiecki • Institute of Physics, PAS, Warsaw • Prof. Henryk Szymczak, Prof. Henryk Lachowicz, Prof. Anna Ślawska-Waniewska, Dr. Lech Baczewski

  4. Members of the Network (2) • Institute of Engineering Materials and Biomaterials, Silesian University of Technology, Gliwice • Prof. Ryszard Nowosielski • Institute of Non-Ferrous Metals, Gliwice • Dr. Roman Kolano, Mr. Jan Szynowski • Institute of Electronic Materials Technology, Warsaw • Prof. Michał Kopcewicz • Tele & Radio Research Institute, Warsaw • Dr. Barbara Ślusarek

  5. Members of the Network (3) • Institute of Physics, Adam Mickiewicz University, Poznań • Prof. Józef Barnaś • Faculty of Materials Processing Technology and Applied Physics, Częstochowa University of Technology • Prof. Józef Zbroszczyk, Prof. Bolesław Wysłocki • Zakład Konstrukcji Elektronicznych Merawex, Gliwice • Mr. Jan Debudaj • Faculty of Metallurgy and Materials Science, University of Mining and Metallurgy, Kraków • Prof. Jan Kusiński

  6. Members of the Network (4) • Warsaw University of Technology • Faculty of Physics • Dr. Krystyna Pękała, Dr. Piotr Jaśkiewicz • Faculty of Mechatronics • Prof. Adam Bieńkowski • Faculty of Materials Science and Engineering • Prof. Marcin Leonowicz, Prof. Tadeusz Kulik (Co-ordinator)

  7. Thematic groups (1) • Soft magnetic nanomaterials – 13 groups • Members: Prof. Haneczok, Prof. Idzikowski, Prof. Lachowicz, Dr. Ślawska-Waniewska, Prof. Nowosielski, Dr. Kolano, Mr. Szynowski, Prof. Kulik, Dr. Pękała, Dr. Jaśkiewicz, Prof. Zbroszczyk, Mr. Debudaj, Prof. Kusiński, Prof. Bieńkowski, Prof. Kopcewicz.

  8. Thematic groups (2) • Hard magnetic nanomaterials – 3 groups • Members: Prof. Leonowicz, Dr. Ślusarek, Prof. Wysłocki • Thin layers – 5 groups • Members: Prof. Maziewski, Prof. Szymański, Prof. Stobiecki, Prof. Szymczak, Dr. Baczewski, Prof. Barnaś

  9. Currently running projects in 5 FP (1) • G5RD-CT-2001-03009 • ”Soft magnetic nanomaterials for high temperature and high frequency functional application in power electronics” (HiT-Fcore) – Prof. Kulik (WUT), Dr. Kolano (IN-FM), Mr. Debudaj (Merawex) • G5MA-CT-2002-04043 • Centre of Excellence NanoCentre: ”Nanocrystalline Materials: Fabrication, Structure, Modelling, Properties and Applications” – Prof. Kulik (WUT) • G1ST-CT-2002-50254 • ”Printed circuit boards with high solderability tin coating for lead free soldering” – Dr. Ślusarek (T&RRI)

  10. Currently running projects in 5 FP (2) • HPRN-CT-2000-00134 • ”RTN Research Training Network „Quantum Magnetic Dots” – Dr. Baczewski (IP PAS) • ICA1-CT-2000-70018 • Centre of Excellence CELDIS ”Physics and fabrication of low dimensional structures for technologies of future generations”– Prof. Ślawska-Waniewska (IP PAS) • G6MA-CT-2002-04021 • Centre of Excellence ASPECT ”Advanced Spectroscopy Applications in Physics, Materials Science, Biology and Environmental Protection”– Prof. Ślawska-Waniewska (IP PAS)

  11. Unsuccessful Projects in 6 FP (1) • Image processing supported studies of the magnetisation distribution in ultrathin magnetic films • Belarus INTAS Call 2003 • Size dependent phenomena in interface controlled functional nanostructures (ICON) • 3-NMP Proposal package for NoE • Nano-Materials Science and Micro-Engineering • Programme "Structuring the ERA - Human Resources and Mobility" - Project Marie Curie RTN • New Generation of Multifunctional Magnetopolymeric Materials • Call: FP6-2003-NEST-A

  12. Unsuccessful Projects in 6 FP(2) • Network of Excellence on Nanomagnetism, acronym NANOMAG • Magnetic nanomaterials for mechatronicrehabilitation equipment • 3 NMP STREP – 505547-1 • Integrated Project HISCANS IP • Strategic Electromagnetic Materials for the 21st Century SEMMA • NoE, Priority 3, NMP, Topic 3.4.2.1

  13. Accepted projects in 6FP • Network of Excellence NENAMAT – Network for Nanostructured Materials of Associated Candidate Countries – Prof. Kulik (WUT) • call FP6-2003-ACC-SSA-General • proposal ref. FP6-510363 • Removal of hazardous substances in electronics processes and techniques for SMEs – Prof. Ślusarek (T&RRI) • Project type: Collective Research – 500225-2 • Priority: Horizontal Research Activities Involving SMEs • Combined study of nanostructured magnetic materials – Prof. Maziewski (UB) • Marie Curie Host Fellowships for Transfer of Knowledge • Call identifier: FP6-2002-Mobility 3 • Proposal ref. FP6-003177

  14. Plans of further participation in 6 FP (1) • Organized nanostructures with magnetic contrast: alternative preparation roots and properties – Prof. Maziewski (UB), Prof. Stobiecki (IMP), Dr. Baczewski (IP). • STREP: Priority 3.4.1.1 Long-term interdisciplinary research into understanding phenomena ... • Wheelchair step transporter – Dr. Ślusarek (T&RRI) • CRAFT – 512875: Priority Horizontal Research Activities Involving SMEs

  15. Plans of further participation in 6 FP (2) • Technology and application of rapidly quenched alloys in practice – Dr. Kolano (IN-FM), Prof. Kulik (WUT) • STREP: Priority 3.4.2.2 Materials processing by radically innovative technologies • Development of manufacturing processes of equipment with nanocrystalline components – Mr. Debudaj (Merawex)

  16. Domestic co-operation • Scientific partners • universities, institutes, research centres • among them strong interlinking between Members of this Network • Industrial partners • small and medium enterprises

  17. International co-operation • Universities, scientific and industrial R&D centres in Europe and beyond: • Germany, France, Spain, UK, Ireland, Italy, Greece, • Norway, Czech Rep., Slovakia, Hungary, Slovenia, Romania, • Japan, USA, Russia, Ukraine, Korea, Malaysia. • Together: we closely cooperate with over 60 centres worldwide.

  18. Expertise of Members of the Network (1) • Manufacturing of magnetic nanomaterials • Casting and nanocrystallisation of metallic glasses • Mechanical alloying • Growth of epitaxial magnetic thin films • Characterisation of structure of nanocrystalline magnetic materials • Characterisation of properties • Magnetic • Electric • Mechanical • Thermal

  19. Expertise of Members of the Network (2) Structure investigations HRTEM X-ray techniques Mössbauer spectroscopy positron annihilation Properties investigations calorimetry (DSC, DTA) magnetic measurements permeability, magnetisation, losses, hysteresis loops etc., resistivity measurements • Experimental methods used • Manufacturing of equipment with inductive components

  20. Co-operation sought • Specific measurements of magnetic properties • Manufacturing of amorphous and nanocrystalline materials in industrial scale • Application of nanocrystalline magnetic materials • Magnetooptics, STM in-situ studies of the early stages of growth, XMCD – for thin layers • Most of necessary co-operation or access to equipment may be provided by other Members of the Network

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