The project is realised in the period November 2007 – December 2015 by research groups having significant scientific achievements, acknowledged also abroad, presenting a great accumulated expertise in implementation of new technologies into national economy. The project is conducted in four parallel research lines:
| 1. |
Synthesis of new liquid crystalline compounds and their mixtures having a variety of optical and electric anisotropy values, ferro- and antiferromagnetic smectic liquid crystals as well as a diversity of liquid crystalline composites |
temat
badawczy |
Schedule of the research Line 1 realization (quarter / year) |
III
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| 1.1 |
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| 1.2 |
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| 1.3 |
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| 1.4 |
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| 1.5 |
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| 1.6 |
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The research Line 1 comprises: |
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1.1 |
Preparation and research new nematic compounds presenting specific optical and electric anisotropy values as well as smectic antiferroelectric compounds, also those forming ortoconic antiferroelectric phases |
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1.2 |
Design, preparation and research of operational parameters of the liquid crystals mixtures described in p.1.1. |
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1.3 |
Design, preparation and research of operational parameters of the liquid crystalline composites of PDLC and PSLCT types employing the materials presented in p. 1.1-1.2 |
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1.4 |
Practical implementation of the results obtained in p. 1.1-1.3 in the construction of the elements of adaptational optics controlled by an exterior field, quick electrooptical switches, filters, spatial modulators of light, also in the laser, holographic and optical fibers techniques including the results of investigations on new elements of the fiber optics photonics in both telecommunication and non-telecommunication applications |
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1.5 |
Preparation the commercial solutions for liquid crystal and fiber optic photonic applications with improvement properties of LC used in them. |
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1.6 |
Preparation the final report about work realized in scope of Line 1 according developed new liquid crystalline compounds and their mixtures having a variety of optical and electric anisotropy values, ferro- and anti-ferromagnetic smectic liquid crystals as well as a diversity of liquid crystalline composites |
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| 2. |
Working out new technologies of manufacturing of the monocrystals and glasses, especially of the oxide type, including the quantum dots as well as the composites containing the ferroelectric monocrystals and liquid crystals . |
temat
badawczy |
Schedule of the research Line 2 realization (quarter / year) |
III
'08 |
IV
'08 |
I
'09 |
II
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III
'09 |
IV
'09 |
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| 2.1 |
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| 2.2 |
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| 2.3 |
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| 2.4 |
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| 2.5 |
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| 2.6 |
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The
research Line 2 comprises: |
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2.1 |
Technology of new oxide monocrystals and their characteristics |
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2.2 |
Technology of new organic glasses based on SiO2 doped with rare earth elements and quantum dots and their characteristics |
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2.3 |
Technology of composites containing organic and inorganic nanocrystals as well as research of their characteristics. |
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2.4 |
Research on application of the materials obtained in p. 2.1-2.4 |
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2.5 |
Monocrystals and nonorganic glasses technologies for application in bulk optic photonics. |
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2.6 |
Preparation the final report about work realized in scope of Line 2 according new technologies of manufacturing of the monocrystals and glasses, especially of the oxide type, including the quantum dots as well as the composites containing the ferroelectric monocrystals and liquid crystals. |
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| 3. |
Research on the theory of structure and technology of complex semiconducting structures conducted from the point of view of their application in a new generation of detectors of electromagnetic radiation. |
temat
badawczy |
Schedule of the research Line 3 realization (quarter / year) |
III
'08 |
IV
'08 |
I
'09 |
II
'09 |
III
'09 |
IV
'09 |
I
'10 |
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'10 |
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'11 |
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'14 |
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| 3.1 |
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| 3.2 |
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| 3.3 |
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| 3.4 |
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| 3.5 |
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| 3.6 |
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| 3.7 |
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The
research Line 3 comprises: |
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3.1 |
Theory of complex semiconducting structures, including quantum dots |
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3.2 |
Modelling of complex semiconducting structures |
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3.3 |
Technology of complex semiconducting structures designed for detection of electromagnetic radiation |
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3.4 |
Technology of a superlattice of the second type |
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3.5 |
Construction and technology of the semiconductor detectors of electromagnetic radiation applying the produced materials presented in p. 3.1-3.4 |
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3.6 |
Technology of improvemented detectors for electromagnetic field in infrared based on verificated theory and simulation. |
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3.7 |
Preparation the final report about work realized in scope of Line 3 according research on the theory of structure and technology of complex semiconducting structures conducted from the point of view of their application in a new generation of detectors of electromagnetic radiation. |
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| 4. |
Technology and research of materials designed for hydrogen storage. |
temat
badawczy |
Schedule of the research Line 4 realization (quarter / year) |
III
'08 |
IV
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| 4.1 |
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| 4.2 |
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| 4.3 |
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| 4.4 |
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| 4.5 |
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| 4.6 |
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| 4.7 |
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The
research Line 4 comprises: |
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4.1 |
Development of a combinational method of manufacturing and the research of chosen parameters of thin layers of multicomponent alloys and intermetallic phases as well as the hydride complexes based on light metals |
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4.2 |
Modification of the structure, microstructure and chemical composition of the hitherto known metals' hydrides and intermetallic phases as well as the hydride complexes from the point of view of improvement of their sorption properties |
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4.3 |
Research of new hydrides of metals, alloys and intermetallic phases as well as hydride complexes in three- and four-components equilibrium systems |
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4.4 |
Selection of the most promising equilibrium systems and chemical compositions from the point of view of their application characteristics |
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4.5 |
Development of technology of chosen hydrides and complexes of hydrides in technological scale using a method of mechanical synthesis |
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4.6 |
Design, manufacture and research of the hydrogen store tank prototype. |
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4.7 |
Preparation the final report about work realized in scope of Line 4 according technology and research of materials designed for hydrogen storage. |
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Apart from the above issues the Project involves: |
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Supplementary purchase of research equipment within the thematic range of the Project. |
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Spread and commercialization of the results of the research enabling the Project's promotion. |
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