A. The indexes of the project’s product
A.1 Financial support of the scientific unit ( 75% - 31.12.2011 ):

The plan of the project’s realization in the period
XI 2007 – III 2013

Percentage of the project's realization –
the accepted report: XI 2007- XII 2011

A.2 Degree of realization of the assumed indexes of the product (at the end of the 4th quarter of 2011):

Name of the index

Unit of the index

 

Base value measured before the project's start

Target value of the index according to the agreement/decision about finance

Value of the index reached since the time of submission of the previous information by the beneficiary

Value of the index reached from the start of the project's realization

Degree of the index realization

(%)

Number of supported institutions (scientific units)

item

0

1

0

1

100 %

Number of research workers involved in the project's realization (including women)

person

0

37
(5)

5.25
(0,75)

47.75
(6,75)

129 %
(135 %)

Number of students engaged in the project's realization

person

0

18

3

22

122 %

Number of PhD students engaged in the project's realization (including women)

person

0

28
(16)

8
(3)

37
(14)

132 %
(88 %)

Number of new positons (EPC) connected with R&D activity created over the period of the project's realization (including women).

item

0

4
(2)

2,3
(1,7)

6,00
(1,7)

150 %
(85 %)

Item of the research equipment purchased in connection with the project's realization

item

0

11

0

11

100  %

A.3 The purchased research equipment:
Line 1. Spectrophotometer of atomic absorption with electrothermic atomization and the Zeeman background correction
(209 840,00 PLN)
Line 1. IR spectrometer for the research of the structure of chemical compounds (109 998,86 PLN)
Line 1. Gas Chromatography / Mass Spectrometry system (GC-MS) – analysis of chemical purity of compounds and analysis of mixtures' composition (326 716,00 PLN).
Line 1. Set-up for the research of dielectric properties of materials
(175 599,48 PLN)
Line 1. Set-up for a clean technology of liquid crystal transducers –part one (56 042,45 PLN)
Line 2. Set-up for X-ray structural analysis (1 141 066,00 PLN)
Line 3. Set-up for the measurement of parameters of high frequency detectors and the carrier lifetime
(945 378,00 PLN)
Line 3. Set-up for testing of photoelectric detection structures
(285 738,64 PLN)
Line 4. Set-up for combinational manufacturing and research of chosen properties of thin layers of multicomponent hydrides and hydride complexes (999 912,00 PLN).
Line 1. Set-up for the research of electrooptical properties of materials (195 215,86 PLN).

Line 1. Set-up for a clean technology of liquid crystal transducers –part two (266 910,00 PLN)

Line 1: A set of stabilized lasers set for photonics structures investigation (326 960,00 PLN)


B. Indexes of results of the project.

B.1 Implementation of technologies (2 from 3):
  • Phantom FWAT for the Institute of Nuclear Physics PAN, Cracow
    FWAT# model of the human tissue (anisotropic according diffusion of water) for calibrating diffusion sequences in MRI scanners designated for non invasion analyze of spatial distribution as well as dynamic conditions of water in biological systems.
  • • Liquid Crystal Cells for TKS-Optics from St. Petersburg The two sets of LCC (6 items each) have been donated to TKS-Optics for future their implementation to the laser rangefinder destined for completing the spacecraft PHOBOS-Grunt
    The second part of LCC denated to TKS-Optics General view of the part of laser rangefinger with implemented LCC (LCC48, LCC49)
B.2 Inventions submitted for the patent protection (5-6):
  • R.S. Dąbrowski, K.L. Czupryński, P. Kula, M. Żurowska, W. Rejmer, W. Piecek, Z. Raszewski, „Antiferroelectric ortoconic smectic liquid crystals of long helix and a method of their synthesis”, patent application of 14.04.2009, No. P 387790 (realization of the line 1)
  • R.S. Dąbrowski, P. Kula, J. Dziaduszek, A. Chołuj, K. Skrzypek, J. Kędzierski, „Dielectric negative liquid crystalline medium with a controlled birefringence“, patent application of 15.06.2009, No. P388285, (realization of the line1).
  • R.S. Dąbrowski, K.L. Czupryński, P. Kula, M. Żurowska, W. Rejmer, W. Piecek, Z. Raszewski, Antiferroelectric orthoconic liquid crystalline material with long pitch and the method of its preparation, patent application of 13.04.2010 US 12/759,185 (realization of the line1)
  • R.S. Dąbrowski, J. Dziaduszek, K. Garbat, Urban, J. Parka, L.R. Jaroszewicz, Liquid crystal nematic medium for photonic devices addressed by two frequencies electric field, patent application of 05.07.2010, No P 391 749, (realization of the line1).
  • R.S. Dąbrowski, P. Kula, A. Chołuj, J. Dziaduszek, K. Garbat, Nematyczne związki i nematyczne media je zawierające o dodatniej lub ujemnej anizotropii dielektrycznej, Polish Patent application P-395708 from 12.07.2011
B.3 Commercialized R&D results obtained in a scientific unit (0):

At the current stage of the project's realization we are working on:

  • Reflection beam modulator for retroreflactor for IOE MUT
  • Power modulation of the satellite laser rangefinder polarized beam for the international space mission „FOBOS-GRUNT”

B.4 New permanent positions and research positions (5):
  1. Number of direct cerated a new working place (EPC) ( 4,53 from 4):
    2.
    • 1- EPC science (senior) lecturer at IAP (Waldemar GAWRON, PhD Eng., since 1.02.2009),
    • 1/4- EPC (senior) lecturer at AMTD (Małgorzata NOREK, PhD, Eng., since 1.05.2009),
    • 1-EPC science (senior) lecturer at IAP (Tomasz NASIŁOWSKI, PhD Eng., since 10.12.2009),
    • 1-EPC older technician at AMTD (Izabela KUNCE, MSc, Eng. since 1.01.2010),
    • 1-EPC older engineer at IAP (Przemysław MORAWIAK, MSc, Eng. since 1.10.2010).
    • 1/3–EPC department manager at AMTD ( Marta Michalska-Domańska, MSc., since 1.02.2011r.) ½ from 1.08.2011.
    • 1-EPC older engineer in ICh (MSc, Eng. Wojciech RAJMER from 1.10.2011r.).
    • o 1/3- EPC (senior) lecturer at IAP (maj. Piotr MARTYNIUK, PhD, Eng since 1.08.2011),
  2. Number of created a new scientific position (3 from 5):
    3.
    • science (senior) lecturer at IAP (Waldemar GAWRON, PhD Eng., since 1.02.2009),
    • (senior) lecturer at AMTD (Małgorzata NOREK, PhD, Eng., since 1.05.2009),
    • science (senior) lecturer at IAP (Tomasz NASIŁOWSKI, PhD Eng., since 10.12.2009),
    • (senior) lecturer at IAP (maj. Piotr MARTYNIUK, PhD, Eng since 1.08.2011),
B.5 Cooperation of the scientific unit with entrepreneurs (also the formalized one) (0):
  1. Number of cooperating companies with scientific unit after project finishing (0 from3)
    2.

    At the current stage of the project's realization the index has not been obtained yet.

  2. Number of companies which exist a formal cooperation (3 from 5):
    3.
    • VIGO System SA, 05-850 Ożarów Mazowiecki, ul. Poznańska 129/133 – application of the MOCVD technology for semiconductor detectors manufacturing - themet 3
    • Nanoscience@University of New Mexico – application quantum structures for construction semiconductor elements, 19 March 2010.
    • Joint Stock Company TKS-optics, St. Petersburg, Russia – cooperation agreement according liquid crystal (LC) devices as simple, convenient, low weight, low driving voltage optical devices, 1 July 2010 – line 1.
      SEE AGREEMENT
B.6 New publications concerning the research results (45):
realization of the line 1.

K. A. Stasiewicz , R. Krajewski, L. R. Jaroszewicz , M. Kujawińska, R. Świłło "Influence of the tapering process on optical fiber refractive index distribution changes along the structure”, Opto-Electronics Review , 18 (1) , (2010), 102-109

J. Kędzierski, Z. Raszewski, M. A. Kojdecki, E. Kruszelnicki-Nowinowski, P. Perkowski, W. Piecek, E. Miszczyk, J. Zieliński, P. Morawiak, K. Ogrodnik „Determination of ordinary and extraordinary refractive indices of nematic liquid crystals by using wedge cells”,  Opto-Electronics Review, 18 (2), (2010), 214-218

Z. Raszewski,  E. Kruszelnicki-Nowinowski, J. Kędzierski, P. Perkowski, W. Piecek, R. Dąbrowski,  P. Morowiak, K. Ogrodnik „Electrically tunable liquid crystal filters”, Mol. Cryst. Liq. Cryst., 525, (2010), 125–140

R. Dąbrowski, P. Kula, Z. Raszewski, W. Piecek, J.M. Otòn, A. Spadło “New orthoconic antiferroelectrics useful for applications”, Ferroelectrics, 395, (2010), 116-132

J. Zieliński, M. Olifierczuk „Fast response TN switch – numerical analysis of transmission function”, Mol. Cryst. Liq. Cryst.,  525, (2010), 57–63

A. T. Krzyżak, L. R. Jaroszewicz ”Anisotropic diffusion phantom – application for DTI”  Molecular Imaging and Biology, 12 , Suplement 2 (2010), S1314

J. Parka, M. Dąbrowski, R. Kowerdziej „Investigation of twist elastic constant K22 of new nematic liquid crystal materials using threshold IPS method”, Opto-Electronics Review , 19 (1), (2010), 114-118

R. Kowerdziej, J. Parka, P. Nyga, B. Salski , „Simulation of a tunabkle metamateriial with nematic liquid crystal layers”, Liquid Crystals, 38(3), (2011), 377-379

L.R. Jaroszewicz, M. Murawski, T. Nasiłowski, K. Stasiewicz, P. Marć, M. Szymański, P. Mergo „Methodology of splicing large air filling factor suspended core photonic crystal fibers”, Opto-Electron. Rev., 19 (2), (2011), 256-259

L.R. Jaroszewicz, Z. Krajewski, H. Kowalski, G. Mazur, P. Zinówko, J. Kowalski „AFORS Autonomous Fibre-Optic Rotational Seismograph: Design and Application”, Acta Geophys., 59(3), (2011), 578-596

L. R. Jaroszewicz, M. Murawski, T. Nasilowski, K. Stasiewicz, P. Marc, M. Szymanski, P. Mergo, W. Urbanczyk, F. Berghmans, H. Thienpont, ” Low-Loss Patch Cords by Effective Splicing of Various Photonic Crystal Fibers With Standard Single Mode Fiber”, J. Lightwave Techn., 29 (19), (2011), 2940-2946

J. Parka, M. Dąbrowski, R. Kowerdziej, “ Investigations of twist elastic constant K22 of new nematic liquid crystal materials using threshold IPS method”, Opto-Electron. Rev., 19 (1 ), (2011), 114-118

J. Parka, R. Kowerdziej, M. Romaniuk, “Photorefractive properties of new liquid crystals in near infrared range”, Liquid Crystals, 38 (1), (2011), 25-30

P. Perkowski, K. Ogrodnik, W. Piecek, M. Żurowska, Z. Raszewski, R. Dabrowski, L. R., Jaroszewicz, “Influence of the bias field on dielectric properties of the SmCA* in the vicinity of the SmC*-SmCA* phase transition” Liquid Crystals , 38 (9), (2011), 1159-1167

K. Ogrodnik, P. Perkowski, Z. Raszewski, W. Piecek, M. Zurowska, R. Dąbrowski, L. R. Jaroszewicz, “Dielectric measurements of orthoconic antiferroelectric liquid crystal mixtures”, Mol. Cryst. Liq. Cryst ., 547 , (2011), 54-64

P. Perkowski, “Numerical elimination methods of ITO cell contribution to dielectric spectra of ferroelectric liquid crystals”, Opto-Electron. Rev. , 19 (2), (2011), 176-182

M. Olifierczuk i J. Zieliński, “Analysis of switching time of transmissive TN cell – light detector structure”, Mol. Cryst. Liq. Cryst ., 544 , (2011), 165[1153]-169[1157]

E. Miszczyk, Z. Raszewski, J. Kędzierski, E. Nowinowski-Kruszelnicki, M. A. Kojdecki, P. Perkowski, W. Piecek, M. Olifierczuk, „Interference Method for Determination of Dispersion of Refractive Indices of Liquid Crystal”, Mol. Cryst. Liq. Cryst ., , 544 , (2011), 22[1010]-36[1024]

M. Chrzanowski, J. Zieliński, E. Nowinowski-Kruszelnicki, W. Piecek, M. Olifierczuk, H. Lendzion, J. Brzeziński, „Orienting layers preparation technology for photoaligment in liquid crystal displays”, Mol. Cryst. Liq. Cryst ., 544 , (2011), 170[1158]-177[1165]

J. Czub, R. Dąbrowski, J. Dziaduszek, S.Urban, “Mesomorphic and dielectric properties of fluorosubstituted isothiocyanates with different bridging groups”, Liq. Cryst., 36(5 ), (2009), 521-529

L.R. Jaroszewicz , Z. Krajewski, K.P. Teisseyre "Usefulness of AFORS - Autonomous Fibre-Optic Rotational Seismograph for investigation of rotational phenomena", J. Seismol. , 29.12.2011, DOI: 10.1007/s10950-011-9258-3

P. Perkowski, Z. Raszewski, W. Piecek, J. Kędzierski, J. Rutkowska, Z. Zieliński, X.W.Sun, “Computer calculations of refractive indices in orthoconic SmC A *. Is it possible to obtain “isotropic” antiferroelectric liquid crystal (IAFLC)?”, Opto-Electron. Rev. , 19 (1), (2011), 34-39

realization of the line 2.

Majchrowski, S. Kłosowicz , R. Węgłowski , I. Cieslik , M. Piasecki, I.V. Kityk , A.H. Reshak „Electro-optical properties of BixLayScz(BO3)4 (x+y+z=4) nanocrystallites having huntite structure incorporated into polymer matrices”, Journal of Alloys and Compounds , 488 (2009), 291-293,

A. Majchrowski , M.G. Brik, G.A. Kumar, K. Ozga, I. Sildos, A. Suchocki, A. Ślęzak, T. Łukasiewicz, I.V. Kityk „Spectroscopic study of the Pr-doped BiBO glass and Ca4GdO(BO3)3 single crystals”, J. of Rare Earths , 27 , (2009), 612-615,

A. Majchrowski, S. Klosowicz, L.R. Jaroszewicz , M. Swirkowicz, I.V. Kityk , M. Piasecki, M.G. Brik “Judd-Ofelt analysis and optically stimulated two-photon absorption of Yb3+-doped NdAl3(BO3)4 single crystals”, Journal of Alloys and Compounds , 491 , (2010), 26-29

A. Majchrowski, L.R. Jaroszewicz , M. Swirkowicz, R. Miedzinski, M. Piasecki, I.V. Kityk , A. Wojciechowski, M.G. Brik “Crystal growth and Judd-Ofelt analysis of novel Yb-doped RbNd(WO4)2 single crystals”, Materials Letters , 64 , (2010), 295-297

D. Kasprowicz, M.G. Brik , A. Majchrowski, E. Michalski , E. Mykowska ” Spectroscopic studies of Nd3+ and Er3+ in KGd(WO4)2 single crystals” Journal of Luminescence , 130 (2010) 623–630

R. Weglowski, S. J. Klosowicz, A. Majchrowski, S. Tkaczyk, A.H. Reshak, J. Pisarek, I.V. Kityk „Enhancement of the Kerr response in polymer-dispersed liquid crystal compels due to incorporation of BiB3O6 nanocrystallites”, Materials Letters, 64(10), (2010), 1176-1178

A. Wojciechowski, M. Swirkowicz, A. Karas, L. Jaroszewicz, A. Majchrowski, E. Gondek,  K. Ozga, I.V. Kityk “Optical features of  Ca4NdO(BO3)3:Yb single crystals under CW laser illumination” Journal of Alloys and Compounds,  504, (2010), 197-200

A. Majchrowski, M. Swierkowicz, L. Jaroszewicz, M. Piasecki, I. V. Kityk, M.G. Brik „Crystal growth and spectroscopic studies of novel Yb-doped K5Nd(MoO4)4 single crystals”, Materials Letters, 64, (2010), 2363-2365

M. Maczka, L. Macalik, B. Macalik, A. Majchrowski, M. Świrkowicz, J. Hanuza „Photon OPTICA and di electric properties of RbNd(WO4)2 laser crystal”, Optical Materials, 32 (10), (2010), 1463-1470

M.G. Brik, A. Majchrowski, L. Jaroszewicz , A. Wojciechowski, I.V. Kityk , "Spectroscopy of YAl3(BO3)4:Cr3+ crystals following first principles and crystal field calculations", Philosoph. Magazine , 90 (34), (2010), 4569-4578

M. Mączka, A. Pietruszko, J. Hanuza, A. Majchrowski „Raman and IR spectra of nonocentrosymmetric Bi0.21La0.91Sc2.88(BO3)4 single crystal with the kuntite-type structue”, J. of Raman Spectroscopy, 41 , (2010), 1297-1301

A. Majchrowski, M. Swirkowicz, S. Tkaczyk, L. Jaroszewicz, I.V. Kityk, K. Ozga, "Photo-induced   optical effects in Nd-containing oxides", Current Applied Physics, 11, (2011), 331-333

W. Paraguassu, M. Maczka, S. Guerini, P. Freire, J. Mendes Filho, A. Majchrowski, M. Swirkowicz, „Vibrational properties of RbNd(WO 4 ) 2 : high pressure Raman study, structural and phonon calculations”, J. Phys.: Condens. Matter, 23, (2011), 405901(7pp)

A.M. El-Naggar, N.S. AlZayed, A. Majchrowski, L. Jaroszewicz , M.G. Brik, W. Kuznik, I.V. Kityk, „Preparation and fluorescence properties of La 2 CaB 10 O 19 crystals doped with Pr 3+ ions”, J. Cryst. Growth, 334 (2011), 122-125.

W. Kuznik, M.G. Brik, I. Cieślik, A. Majchrowski, L. Jaroszewicz, N.S. AlZayed, A.M. El-Naggar, I. Sildos, S. Lange, V. Kiisk, I.V. Kityk “Changes of fluorescent spectral features after successive rare earth doping of gadolinium oxide powders” J. All. Com., 511, (2011), 221-225

realization of the line 3

A. Rogalski , J. Antoszewski, and L. Faraonf „Third-generation infrared photodetector arrays”, Journal of Applied Physics , 105 , (2009), 091101 - 1-44

A. Rogalski „Insight on quantum dot infrared photodetectors”, Journal of Physics: Conference Series , 146 , (2009), 012030 1-9,

P. Martyniuk, A. Rogalski , „Insight into performance of quantum dot infrared photodetectors”, Biuletyn of the Polish Academy of Sciences Technical Sciences , 57 , (2009), 103-116,

A. Rogalski “Outlook on Quantum Dot Infrared Photodetectors”, Optical Memory and Neural Network , 18(3 ), (2009), 234-252

M. Kopytko, K. Jóźwikowski, A. Jóźwikowska, A. Rogalski, „High frequency response of near-room temperature LWIR HgCdTe heterostructure photodiodes” Opto-Electronics Review, 18 (3), (2010), 277-283

K. Jóźwikowski, M. Kopytko, A. Rogalski , and A. Jóźwikowska „Enhanced numerical analysis of current-voltage characteristics of long wavelength infrared n-on-p HgCdTe photodiodes”, J. of Applied Physics , 108, (2010), 074519

A. Rogalski : Infrared Detectors , 2nd ed. CRS Press Taylor & Francis Group, Boca Raton, London, New York, 2011, 880 stron

P. Madejczyk, W. Gawron, A. Piotrowski, K. Kłos, J. Rutkowski, A. Rogalski, „Improvement in performance of high-operating temperature HgCdTe potodiodes”,  Infrared Phys.  and Techn.,  54, (2011), 310-315 x

A. Rogalski „Recent progress in infrared detector technologies”,  Infrared Phys. and Techn.,  54, (2011), 136-154

K. Jóżwikowski, M. Kopytko, J. Piotrowski, A. Jóźwikowska, Z. Orman, A. Rogalski, “ Near-room temperature MWIR HgCdTe photodiodes limited by vacancies and dislocations related to Schockley-Read-Hall centres”, Solid-State Electronics, 63 , (2011), 8-13

K. Jóżwikowski, M. Kopytko, A. Rogalski, „Numerical estimations of Cartier generation-recombination processes and photon recycling effect in 3-um n-on-p HgCdTe photodiodes”, Opt. Eng., 50(6) , (2011), 061003-1-8

A. Rogalski, F. Sizov „Terahertz detectors and focal plane arrays”, Opto-Electron. Rev. , 19 (3), (2011), 346-404

realization of the line 4

M. Polanski, J. Bystrzycki “The influence of different additives on the solid-state reaction of magnesium hydride (MgH2) with Si”, Int. J. of Hydrogen Energy , 34 (2009), 7692-7699,

M. Polanski, J. Bystrzycki “Comparative studies of the influence of different nano-sized metal oxides on the hydrogen”, J. of Alloys and Compounds , 486 , (2009), 697-701,

M. Polanski , T. Płociński, I. Kunce, J. Bystrzycki “Dynamic synthesis of ternary Mg2FeH6”, Int. J. of Hydrogen Ener gy, 35 (2010), 1257-1266

I.E. Malka, T. Czujko, J. Bystrzycki „Catalytic effect of halide additives Ball milled with magnesium hydride” Int. J. of Hydrogen Energy , 35 (2010), 1706-1712

R. A. Varin, M. Jang, M. Polański „The effects of milling and molar ratio of LiH on the hydrogen storage properties of nanocrystalline lithium amide and lithium hydride (LiNH2+LiH) system”, Journal of Alloys and Compounds , 491 , (2010), 658-667

M. Polański , T. K. Nielsen, Y. Cerenius, J. Bystrzycki , T. R. Jensen „Synthesis and decomposition mechanisms of Mg2FeH6 studied by in-situ synchrotron X-ray diffraction and high-pressure DSC” Int. J. of Hydrogen Energy , 35 (2010), 3528-3582

R. A. Varin, L. Zbroniec, M. Polanski, J. Bystrzycki, “A Review of Recent Advances on the Effects of Microstructural Refinement and Nano-Catalytic Additives on the Hydrogen Storage Properties of Metal and Complex Hydrides”, Energies, 4 (2011) 1-25

M. Polanski, J. Bystrzycki, R. A. Varin, T. Płociński, M. Pisarek, “The effect of chromium (III) oxide (Cr2O3) nanopowder on the microstructure and cyclic hydrogen storage behavior of magnesium hydride (MgH2)”, Journal of Alloys and Compounds. 509 (2011) 2386-2391

M. Polanski, J. Bystrzycki, R. A. Varin, T. Płociński, “Rapid hydrogenation at 30 0C of magnesium (Mg) and iron (Fe) nanocomposite obtained through a decomposition of Mg2FeH6 precursor”, Int. J. of Hydrogen Energy. 36 (2011) 1059-1065

I.E. Malka, A. Błachowski, K. Ruebenbauer, J. Przewoźnik, J. Żukrowski, T. Czujko, J. Bystrzycki, “Iron fluorides assisted dehydrogenation and hydrogenation of MgH2 studied by Mossbauer spectroscopy”,  Journal of Alloys and Compounds. 509 (2011) 5368-5372

I.E. Malka, T. Czujko, J. Bystrzycki, L.R. Jaroszewicz, “The role of Mg2FeH6 formation on the hydrogenation properties of MgH2-FeFx composities”,  Cent. Eur. J. Chem.,  9(4) (2011) 701-705

M. Norek, T.K. Nielsen, M. Polanski, I. Kunce, T. Plocinski, L.R. Jaroszewicz, Y. Cerenius, T.R. Jensen, J. Bystrzycki „Synthesis and decomposition mechanisms of ternary Mg2CoH2 studied using in situ synchrotron X-ray diffraction”,Int. J. of Hydrogen Energy. 36 (2011) 10760-10770

I.E. Malka, J. Bystrzycki , T. Płociński, T. Czujko “Microstructure and hydrogen storage capacity of magnesium hydride with zirconium and niobium fluoride additives after cyclic loading”, Journal of Alloys and Compounds. 509S (2011), S616-S620

I.E. Malka , M. Piasarek, T. Czujko, J. Bystrzycki, “A study of the ZrF 4 , NbF 5 , TaF 5 , and TiCl 3 influences on the MgH 2 absporption properties”, Int. J. of Hydrogen Energy. 36 (2011) 12909-12917

M. Norek , W. Stępniowski, M. Polański, D. Zasada, Z. Bojar, J. Bystrzycki, “A comparative study on the hydrogen absorption of thin films at room temperarature deposited on non-porous glass substrate and nano-porus anodic aluminum oxide (AAO) template”, Int. J. of Hydrogen Energy . 36 (2011) 11777-11784

T. K Nelsen, M. Polański, D. Zasasada, P. Javadin, F.Besenbacher, J. Bystrzycki , J. Skibsted, T. R. Jensen, „Improved Hydrogen Storage Kinetics on Nanocofinned NaAlH 4 Catalyzed with TiCl 3 Nanoparticles”, ACS Nano, 5 (5), (2011) 4056-4064

R.A. Varin, Z. Zaranski, T. Czujko, M. Polański, Z.S. Wronski „The composites of magnesium hydride and irion-titanium intermetalic”, Int. J. of Hydrogen Energy . 36 (2011) 1177-1183

B.7 Buyers of the R&D projects’ results ( 1-3 ) :

TKS-optics accepts at 23 rd Nov. 2010, the LCC manufactured under the abovementioned Agreement on Collaboration between IAP-MUT and TKS-optics, with the purpose to make their futher tests in the scope of requirements demanded for its use with the laser rangefinder destined for completing the spacecraft PHOBOS-Grunt
TKS-23_11_report.pdf

TKS-optics accepts at 16rd June 2011, the LCC manufactured under the abovementioned Agreement on Collaboration between IAP-MUT and TKS-optics, with the purpose to make their futher tests in the scope of requirements demanded for its use with the laser rangefinder destined for completing the spacecraft PHOBOS-Grunt
000_statement.pdf

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