Wrocław University of Technology

Centre of Advanced Materials and Nanotechnology

Materials Science

Poland

Contents of Volume 24

Author Index

Key Word Index

Vol. 24 • • 2006

Oficyna Wydawnicza Politechniki Wrocławskiej

Editorial Office

Tomasz Fałat

Karol Langner

Printed in Poland

© Copyright by Oficyna Wydawnicza Politechniki Wrocławskiej, Wrocław 2006

Drukarnia Oficyny Wydawniczej Politechniki Wrocławskiej

Contents of Volume 24

No. 1

J. Molenda, High-temperature solid-oxide fuel cells. New trends in materials research 5 F. Krok, I. Abrahams, W. Wrobel, A. Kozanecka-Szmigiel, J.R. Dygas, Oxide-ion conductors for

fuel cells 13 W. Wrobel, F. Krok, I. Abrahams, A. Kozanecka-Szmigiel, M. Malys, S.C.M. Chan, J.R. Dygas,

Bi8V2O17 – a stable phase in the Bi2O3–V2O5 system 23 A. Kozanecka-Szmigiel, F. Krok , I. Abrahams, W. Wrobel, S.C.M. Chan, J.R. Dygas, Structure

and electrical properties of oxide-ion conductors in the Bi3NbO7–Bi3YO6 system 31 M. M. Bućko, Some structural aspects of ionic conductivity in zirconia stabilised by yttria and calcia 39 M. Dudek, J. Molenda, Ceria-yttria-based solid electrolytes for intermediate temperature solid

oxide fuel cell 45 A. Trenczek-Zając, M. Rekas, Electrical properties of Nb-doped titanium dioxide TiO2 at room

temperature 53 J. Molenda, Lithium-ion batteries – state of art. Novel phospho-olivine cathode materials 61 J. Marzec, W. Ojczyk, J. Molenda, Delithiation of olivine – structured LiFexMn1–xPO4 cathode

materials. Mössbauer studies 69 J. Molenda, M. Ziemnicki, M. Molenda, M. Bućko, J. Marzec, Transport and electrochemical

properties of orthorhombic LiMnO2 cathode material for Li-ion batteries 75 M. Molenda, R. Dziembaj, A. Kotwica, W. Łasocha, Structural, thermal and electrical properties

of lithium–manganese spinel with a sulphur-substituted oxygen sublattice 85 A. Ignaszak, P. Pasierb, S. Komornicki, The effect of humidity on the electrical properties of

Nasicon-type materials 95 W. Ojczyk, J. Marzec, J.R. Dygas, F. Krok, R.S. Liu, J. Molenda, Structural and transport proper-

ties of LiFe0.45Mn0.55PO4 as a cathode material in Li-ion batteries 103 K. Świerczek, J. Marzec, J. Molenda, La1–xSrxCo1–y–zFeyNizO3 perovskites – possible new cathode

materials for intermediate-temperature solid-oxide fuel cells 115 W. Zając, J. Marzec, J. Molenda, The effect of aluminium on the electrical and electrochemical

properties of phospho-olivine – a cathode material for Li-ion batteries 123 E. Żelazowska, M. Borczuch-Łączka, E. Rysiakiewicz-Pasek, T. Zduniewicz, Li-ion conducting

organic–inorganic hybrid electrolytes 133 M. Foltyn, M. Zgirski, J. Garbarczyk, M. Wasiucionek, B. Pałosz, S. Gierlotka, J.L. Nowiński,

New composite materials prepared by high-pressure infiltration of superionic glasses into dia-mond powder compacts 141

P. Jozwiak, J. E. Garbarczyk, M. Wasiucionek, Evaluation of transference numbers in mixed conductive lithium–vanadate–phosphate glasses 147

B. Macalik, M. Suszyńska, L. Krajczyk, Effect of the microstructure on transport properties of doped SLS glasses 155

J. L. Nowiński, M. Mroczkowska, J.E. Garbarczyk, M. Wasiucionek, Crystallization processes in superionic AgI–Ag2O–P2O5 ([Ag2O]/[P2O5] = 3) glasses 161

J. L. Nowiński, Crystallization processes in silver-ion conducting borate and phosphate glasses 169 M. Wasiucionek, J. Garbarczyk, R. Bacewicz, P. Jóźwiak, J.L. Nowiński, EXAFS/XANES stu-

dies of the local structure of amorphous ionic and electronic-ionic conductors 181

4

A. Łasińska, J. R. Dygas, F. Krok, M. Marzantowicz, Z. Florjańczyk, A. Tomaszewska, E. Zyga-dło-Monikowska, Ionic conductivity of polymer electrolytes comprising acrylonitrile–butyl acrylate copolymer and a lithium salt 187

M. Marzantowicz, J. R. Dygas, F. Krok, E. Zygadło-Monikowska, Z. Florjańczyk, In-situ study of the influence of crystallization on the ionic conductivity of polymer electrolytes 195

J. Piekarska, M. Ptasińska, G. Żukowska, H. Wyciślik, M. Siekierski, Novel composite polymer-in-salt electrolytes based on a PVdF matrix obtained with a solvent-free technique 205

A. Sitarek, P. Rajewski, G. Żukowska, H. Wyciślik, M. Ciosek, M. Siekierski, Application of silicon and titanium alkoxylates as bifunctional additives for composite polymeric electrolytes 213

R. J. Barczyński, L. Murawski, Mixed electronic-ionic conductivity in vanadate oxide glasses containing alkaline ions 221

W. Bronowska, High-temperature phenomena in RbD2PO4 and CsH2PO4. Polymeric transforma-tions or polymorphic phase transitions? 229

A. Gągor, A. Pietraszko, M. Drozd, M. Połomska, D. Kaynts, Structural phase transitions and their influence on Cu+ mobility in superionic ferroelastic Cu6PS5I single crystals 237

K. Pogorzelec-Glaser, J. Garbarczyk, Cz. Pawlaczyk, E. Markiewicz, Electrical conductivity in new imidazolium salts of dicarboxylic acids 245

M. Dudek, G. Róg, W. Bogusz, A. Kozłowska-Róg, M. Bućko, Ł. Zych, Calcium zirconate as a solid electrolyte for electrochemical devices applied in metallurgy 253

G. Jasiński, P. Jasiński, B. Chachulski, A. Nowakowski, Electrocatalytic gas sensors based on Nasicon and Lisicon 261

P. Jasiński, Solid-state electrochemical gas sensors 269 P. Pasierb, Application of Nasicon and YSZ for the construction of CO2 and SO

x potentiometric

gas sensors 279 M. Radecka, TiO2:Au thin film electrodes for electrochemical solar cells 285 J. M. Skowroński, A. Ważny, Electrooxidation of methanol in alkaline solution on composite

electrodes 291

No. 2/1

M. Javadi, M. Tajdari, Experimental investigation of the friction coefficient between aluminium and steel 305

E. Sówka, M. Leonowicz, B. Andrzejewski, A. D. Pomogailo, G. I. Dzhardimalieva, Cobalt nanoparticles processed by thermal decomposition of metal-containing monomers 311

A. Ul-Hamid, H. M. Tawancy, S. S. Al-Jaroudi, A.-R. I. Mohammed, N. M. Abbas, Carburisa-tion of Fe–Ni–Cr alloys at high temperatures 319

M. Ramachandra, K. Radhakrishna, Sliding wear, slurry erosive wear, and corrosive wear of aluminium/SiC composite 333

Ch. Wang, Y. Rong , T.Y. Hsu (Xu Zuyao), Progressive evolution from giant magnetoresistance to anisotropic magnetoresistance in CoNi–Al2O3 granular films 351

S. Basavarajappa, G. Chandramohan, R. Subramanian, A. Chandrasekar, Dry sliding wear be-haviour of Al 2219/SiC metal matrix composites 357

P. K. Biswas, L. Dua, A. De, T. Chaudhuri, Aquo-organic sol-based F-doped SnO2 (Sn:F = 90:10) coatings on glass 367

N. Kumar, R. Kaur, R. M. Mehra, Characterization of sol-gel derived yttrium-doped n-ZnO/p-Si heterostructure 375

A. Kantautas, D. Palubinskaitė, G. Vaickelionis, Synthesis and hardening of fluoralinite cement 385 D. Palubinskaite, A. Kantautas, Influence of tribomechanical milling and activation of primary

mixtures on the synthesis of calcium silicate hydrates 395

5

D. Hreniak, P. Głuchowski, W. Stręk, M. Bettinelli, A. Kozłowska, M. Kozłowski, Preparation and upconversion properties of Er3+, Yb3+:Y2Si2O7 nanocrystallites embedded in PVA poly-mer nanocomposites 405

No. 2/2

From the Editors 419 W. M. Bartczak, J. Stawowska, Hydrogen atoms at the palladium surface, at the MgO surface and

at the Pd–MgO metal-support boundary. Towards computer modelling of the spillover effect 421 B. Kuchta, L. Firlej, Mechanism of adsorption in cylindrical nanopores. The roles of adsorbate–

adsorbate interactions in stabilizing the adsorbed phase 433 L. Firlej, B. Kuchta, Melting transitions of monolayers adsorbed in cylindrical nanopores 443 P. Polanowski, M. Kozanecki, T. Pakula, Non-mononotonical behaviour of reaction diffusion

front width. Simulation studies in frame of dynamic lattice liquid (DLL) model 453 P. Ulański, S. Kadłubowski, J.K. Jeszka, Nanogel formation by intrachain radiation-induced

cross-linking. Simulation and experiment 467 S. Kripotou, P. Pissis, E. Kontou, A.M. Fainleib, O. Grygoryeva, I. Bey, Structure–property

relationships in brittle polymer networks modified by flexible cross-links 477 A. Ziabicki, B. Misztal-Faraj, Interpretation of light depolarization data in terms of polymer

crystallinity 493 P. Wojciechowski, T. Halamus, U. Pietsch, Mesomorphic organisation of (2-hydroxypropyl)-

cellulose under the influence of silica networks 507 A. Tracz, A. Mierczyńska, K. Takimiya, T. Otsubo, N. Niihara, J. K. Jeszka, Conducting polymer

films with new organic donor MDT-TSF: preparation and properties 517 A. Rybak, J. Jung, W. Ciesielski, J. Ulanski, Photovoltaic effect in novel polysilane with phe-

nothiazine rings and its blends with fullerene 527

No. 3

From the Organizers 539 E. Wawrzyńska, A. Szytuła, Magnetic ordering schemes in R3T4X4 compounds 543 W. Głogowski, A. Ślebarski, Photoemission study of CeRh1–xPd

xAl. The effect of Pd doping on

electronic structure 551 A. Szytuła, D. Gomółka, A. Jezierski, B. Penc, E. Wawrzyńska, A. Winiarski, Electronic structu-

res of intermetallic rare earth compounds 557 J. Goraus, A. Ślebarski, J. Deniszczyk, Electronic structure of Ce2Rh3Al9 563 M. Gamża, A. Ślebarski, J. Deniszczyk, Electronic structure of CeRhIn5 and CeIrIn5 569 A. Gil, Magnetic interaction in RT

xX2 ternary compounds 577

R. Troć, Study of the valence state of U ions in quasi-two-dimensional ternary uranium compounds 585 G. Grabecki, PbTe constrictions for spin filtering 591 T. Szumiata, K. Brzózka, B. Górka, M. Gawroński, G. Pavlík, P. Sovák, Evolution of hyperfine

parameters in Co-doped FINEMET 599 B. J. Spisak, A. Paja, Conductivities and transmission coefficients of ultra-thin disordered metal-

lic films 605 M. Samsel-Czekała, G. Kontrym-Sznajd, M. Biasini, Electronic structures of f-electron interme-

tallic compounds studied by positrons 611 J. Sadowski, J. Z. Domagała, J. Kanski, C. H. Rodriguez, F. Terki, S. Charar, D. Maude, How to

make GaMnAs with a high ferromagnetic phase transition temperature? 617

6

M. Sawicki, K.-Y. Wang, K.W. Edmonds, R.P. Campion, C.R. Staddon, N.R.S. Farley, C.T. Foxon, T. Dietl, B.L. Gallagher, In-plane uniaxial anisotropy rotations in (Ga, Mn)As thin films 627

P. Jarguz, A. Paja, Electrical resistivity of disordered monolayer metallic films 633 J. Jaworowicz, Z. Kurant, K. Postava, A. Maziewski, L.T. Baczewski, A. Wawro, Domain struc-

tures and magnetization processes in thin Co films with in-plane anisotropy 639 T. Błachowicz, M. Wieja, Analysis of magnetisation reversal at the exchange-biased interface

using the Ising approach 643 S. Krompiewski, Electronic transport through carbon nanotubes with ferromagnetic electrodes

and in magnetic fields 649 A. Stupakiewicz, R. Gieniusz, K. Postava, M. Tekielak, A. Maziewski, I. Szerel, A. Wawro, L.T.

Baczewski, Magnetic ordering in ultra-thin Co films grown on vicinal substrates 659 P. Przysłupski, A. Tsarou, I. Komissarov, K. Dybko, P. Dłużewski, M. Sawicki, B. Dąbrowski,

C. Kimball, Magnetism and superconductivity in oxide ferromagnet/superconductor hetero-structures 665

V. H. Tran, Hall effect in strongly correlated electron systems 669 A. M. Werpachowska, Z. Wilamowski, RKKY coupling in diluted magnetic semiconductors 675 A. Jezierski, A. Szytuła, D. Kaczorowski, Effect of spin-orbit coupling on the electronic structure

of bismuthide YbAuBi 683 S. Lipiński, Spin and orbital Kondo effect in electrostatically coupled quantum dots 689 M. Wawrzyniak, M. Gmitra, J. Barnaś, Resonant tunnelling through a single level quantum dot

attached to ferromagnetic leads with non-collinear magnetizations 695 I. Staniucha, A. Urbaniak-Kucharczyk, The influence of roughness on the Curie temperature and

magnetisation in multilayers 701 M. Wójcik, E. Jędryka, I. Škorvánek, P. Švec, Partitioning of Co upon the nanocrystallisation of

soft magnetic FeCo(Zr, Nb)B alloys – a 59Co NMR study 707 E. Talik, M. Adamiec, A. Molak, Photoelectron spectroscopy of Ba-doped lead germanate

– Pb5Ge3O11 713 T. Balcerzak, Calculation of the Fermi wave vector for thin films, quantum wires and quantum

dots 719 A. Wronka, First principles calculations of zinc blende superlattices with ferromagnetic dopants 725 K. Warda, L. Wojtczak, D. Baldomir, M. Pereiro, J. Arias, The influence of effective mass on

magnetoresistance in ultrathin Fe/Cr/Fe films 731 A. Szytuła, Complex magnetic phenomena in f-electron intermetallic compounds 737 K. Szymański, L. Dobrzyński, D. Satuła, E. Voronina, E. P. Yelsukov, Magnetization distribution

in nanocrystalline Fe0.48Al0.52 753 J. Wiśniewska, M. Kowalik, Józef Barnaś, Transport characteristics of ferromagnetic single-

electron transistors with non-collinear magnetizations 761 J. Dajka, E. Zipper, Persistent currents controlled by non-classical electromagnetic fields 769 P. Dziawa, V. Osinniy, W. Dobrowolski, K. Dybko, E. Łusakowska, B. Taliashvili, T. Story,

C.J.P. Smits, H.J.M. Swagten, Magnetic properties of (Eu,Gd)Te semiconductor layers 777 W. Stefanowicz, M. Tekielak, V. Bucha, A. Maziewski, V. Zablotskii, L.T. Baczewski,

A. Wawro, Dendritic domain structures in ultrathin cobalt films 783 T. Toliński, V. Ivanov, A. Kowalczyk, Electrical resistivity of RNi4Al and RNi4Cu 789 T. Zając, L. Folcik, J. Chmist, A. Kołodziejczyk, H. Drulis, K. Krop, G. Gritzner, Magnetisation

and electron spin resonance of the colossal magnetoresistive La0.67Ca0.33Mn1–xFexO3 795

Z. Wilamowski, A. M. Werpachowska, Spintronics in semiconductors 803 L. Kowalczyk, M. Chernyshova, T. Story, A. Yu. Sipatov, Photoluminescence in EuS–PbS–EuS

semiconductor structures with a double ferromagnetic barrier 809

7

M. Kowalik, J. Wiśniewska, J. Barnaś, Torque due to spin-polarized current in ferromagnetic single-electron transistors 815

L. Smardz, K. Smardz, Week interlayer exchange coupling in Fe–Zr and Fe–Ti layered structures 821 K. Smardz, L. Smardz, Structure and electronic properties of Fe–Ti thin films 827 F. Stobiecki, M. Urbaniak, B. Szymański, T. Luciński, M. Schmidt, J. Aleksiejew, Ni80Fe20/Au/Co/Au

multilayers as magnetic field sensors 833 A. Szajek, J. A. Morkowski, Calculated magnetic moments and electronic structures of the com-

pounds Rn+1Co3n+5B2n, R = Gd, Tb, n = 0, 1, 2, 3, and ∞ 839 A. Szajek, Electronic and magnetic properties of Nd5Co19B6 and Nd5Co21B4 843 B. Szymański, F. Stobiecki, M. Urbaniak, Temperature dependence of magnetization reversal in

Ni80Fe20/Au/Co/Au multilayers 849 A. Szajek, S.A. Kostyrya, B. Idzikowski, Electronic and magnetic properties of metastable

Fe22PdB6 and Fe22PtB6 compounds 855 P. Wandziuk, T. Luciński, M. Kopcewicz, Influence of Ge on antiferromagnetic coupling in

Fe/Si multilayers 861 A. Bajorek, D. Stysiak, G. Chełkowska, J. Deniszczyk, W. Borgieł, M. Neumann, Magnetic

properties and electronic structure of YxGd1–xNi5 compounds 867

No. 4

Preface 881 R. Ramirez, M. Weissmann, G. Garcia, M. Kiwi, Carbon encapsulated iron nanowires 883 M. Makowska-Janusik, A.-H. Kassiba, G. Failleau, J. Bouclé, Interface effects on the NLO pro-

perties of guest–host materials 891 J. Typek, N. Guskos, ESR study of spin dynamics in (Er0.5Y0.5)2Cu2O5 solid solutions 901 A. Amirabadizadeh, S. K. Hasanain, Effect of crossed flux on flux pinning in YBCO supercon-

ductor 913 J. Narojczyk, K. W. Wojciechowski, Computer simulation of Poisson’s ratio of soft polydisperse

discs at zero temperature 921 V. I. Bilozertseva, H. M. Khlyap, P. S. Shkumbatyuk, N. L. Dyakonenko, S. S. Krivonos, Sb-

contained thin films. Structural and electric properties 929 A. Gadomski, M. Dressler, I. Santamaría-Holek, J. M. Rubí, Formation of soft material in terms

of a coupled matter migration-and-relaxation picture. A synchronous mode 935 S. Hałas, 100 years of work function 951 I. Jóźwik, J. M. Olchowik, Analysis of the processes of silicon epitaxial lateral overgrowth in Ar

ambient gas 967 A. Rudawska, J. Kuczmaszewski, Surface free energy of zinc coating after finishing treatment 975 N. Guskos, J. Typek, G. Żołnierkiewicz, A. Błońska-Tabero, S. Los, W. Kempiński, Effects of

thermal treatment on magnetic properties of Ni2FeV3O11–δ compound 983 M. Plebańczyk, T. Klimczuk, T. Gortenmulder, P. Fiertek, W. Sadowski, Influence of conditions

of synthesis on superconductivity in Nd2–xCexCuO4–y 991 M. Lipiński, P. Panek, S. Kluska, P. Zięba, A. Szyszka, B. Paszkiewicz, Defect passivation of

multicrystalline silicon solar cells by silicon nitride coatings 1003 M. Lipiński, S. Kluska, H. Czternastek, P. Zięba, Graded SiOxNy layers as antireflection coatings

for solar cells application 1009 O. Yu. Gorobets, D. O. Derecha, Quasi-periodic microstructuring of iron cylinder surface under

its corrosion under combined electric and magnetic fields 1017 E. Jakubczyk, Phase transitions in Co78Si9B13 and Fe78Si9B13 metallic glasses induced by iso-

chronal annealing 1027

8

K. Cieślak, J. M. Olchowik, Analysis of the wave packet interference pattern in the Young expe-riment 1037

P. Papet, O. Nichiporuk, A. Fave, A. Kaminski, B. Bazer-Bachi, M. Lemiti, TMAH texturisation and etching of interdigitated back-contact solar cells 1043

S. Gułkowski, J. M. Olchowik, Hydrogen interactions in magnetic resonance imaging. Histo-gram-based segmentation of brain tissues 1051

V. V. Kuznetsov, E. R. Rubtsov, E. A. Kognovitskaya, Epitaxial films of GaInPAsSb quinary solid solutions 1057

U. Narkiewicz, W. Arabczyk, I. Pełech, N. Guskos, J. Typek, M. Maryniak, M. J. Woźniak, H. Matysiak, K. J. Kurzydłowski, FMR study of nanocarbon materials obtained by carburisa-tion of nanocrystalline iron 1067

S. Marczyński, J. Typek, N. Guskos, E. Grech, B. Kołodziej, Electron spin resonance study of copper(II) hydrogenmalonate dihydrate complex 1077

T. Cieplak, C. Yamabe, J. M. Olchowik, J. Ozonek, Analysis of the process of ozone generation and micro-channel intensity distribution by the discharge analysis method 1087

N. Guskos, J. Typek, M. Maryniak, G. Żołnierkiewicz, M. Podsiadły, W. Arabczyk, Z. Lendzion- -Bieluń, U. Narkiewicz, Effect of calcination and structural additives on the EPR spectra of nanocrystalline cobalt oxides 1095

P. Fiertek, W. Sadowski, Processing of porous structures of YBa2Cu3O7–δ. High-temperature superconductor 1103

A. Zdyb, J. M. Olchowik, M. Mucha, Dependence of GaAs and Si surface energy on the miso-rientation angle of crystal planes 1109

A. Jaśkowska, A. Dudziak, M. Gospodarek, E. Śpiewla, Intermolecular interactions in plant cells reflected by ultraweak luminescence phenomenon 1115

J. M. Olchowik, S. Gułkowski, K. J. Cieślak, J. Banaś, I. Jóźwik, D. Szymczuk, K. Zabielski, J. Mucha, M. Zdrojewska, J. Adamczyk, R. Tomaszewski, Influence of temperature on the ef-ficiency of monocrystalline silicon solar cells in the South-eastern Poland conditions 1127

S. V. Gorobets, O. Gorobets, I. Yu. Goyko, S. P. Mazur, Stirring of electrolytes in the vicinity of metallic matrix in a permanent magnetic field 1133

S. Marczyński, N. Guskos, J. Typek, E. Grech, B. Kołodziej, Magnetic ordering processes in manganese(II) di(hydrogen malonate) monohydrate complex studied by ESR spectroscopy 1139

Author Index*

Abbas N.M. see Ul-Hamid A. 319/2/1

Abrahams I. see Kozanecka-Szmigiel A. 31/1

Abrahams I. see Krok F. 13/1

Abrahams I. see Wrobel W. 23/1

Adamczyk J. see Olchowik J. M. 1127/4

Adamiec M. see Talik E. 713/3

Aleksiejew J. see Stobiecki F. 833/3

Al-Jaroudi S.S. see Ul-Hamid A. 319/2/1

Amirabadizadeh A., Hasanain S. K., Effect of crossed flux on flux pinning in YBCO supercon-

ductor 913/4

Andrzejewski B. see Sówka E. 311/2/1

Arabczyk W. see Guskos N. 1095/4

Arabczyk W. see Narkiewicz U. 1067/4

Arias J. see Warda K. 731/3

Bacewicz R. see Wasiucionek M. 181/1

Baczewski L.T. see Jaworowicz J. 639/3

Baczewski L.T. see Stefanowicz W. 783/3

Baczewski L.T. see Stupakiewicz A. 659/3

Bajorek A., Stysiak D., Chełkowska G., Deniszczyk J., Borgieł W., Neumann M., Magnetic prop-

erties and electronic structure of YxGd1–xNi5 compounds 867/3

Balcerzak T., Calculation of the Fermi wave vector for thin films, quantum wires and quantum dots 719/3

Baldomir D. see Warda K. 731/3

Banaś J. see Olchowik J. M. 1127/4

Barczyński R.J., Murawski L., Mixed electronic-ionic conductivity in vanadate oxide glasses

containing alkaline ions 221/1

Barnaś J. see Kowalik M. 815/3

Barnaś J. see Wawrzyniak M. 695/3

Barnaś J. see Wiśniewska J. 761/3

Bartczak W.M., Stawowska J., Hydrogen atoms at the palladium surface, at the MgO surface and

at the Pd–MgO metal-support boundary. Towards computer modelling of the spillover effect 421/2/2

Basavarajappa S., Chandramohan G., Subramanian R., Chandrasekar A., Dry sliding wear behav-

iour of Al 2219/SiC metal matrix composites 357/2/1

Bazer-Bachi B. see Papet P. 1043/4

Bettinelli M. see Hreniak D. 405/2/1

Bey I. see Kripotou S. 477/2/2

Biasini M. see Samsel-Czekała M. 611/3

Bilozertseva V. I., Khlyap H. M., Shkumbatyuk P. S., Dyakonenko N. L., Krivonos S. S.,

Sb-contained thin films. Structural and electric properties 929/4

Biswas P.K., Dua L., De A., Chaudhuri T., Aquo-organic sol-based F-doped SnO2 (Sn:F = 90:10)

coatings on glass 367/2/1

Błachowicz T., Wieja M., Analysis of magnetisation reversal at the exchange-biased interface

using the Ising approach 643/3

Błońska-Tabero A. see Guskos N. 983/4

________

*Page number/Issue number.

10

Bogusz W. see Dudek M. 253/1 Borczuch-Łączka M. see Żelazowska E. 133/1 Borgieł W. see Bajorek A. 867/3 Bouclé J. see Makowska-Janusik M. 891/4 Bronowska W., High-temperature phenomena in RbD2PO4 and CsH2PO4. Polymeric transforma-

tions or polymorphic phase transitions? 229/1 Brzózka K. see Szumiata T. 599/3 Bucha V. see Stefanowicz W. 783/3 Bućko M. see Dudek M. 253/1 Bućko M. see Molenda J. 75/1 Bućko M.M., Some structural aspects of ionic conductivity in zirconia stabilised by yttria and

calcia 39/1 Campion R.P. see Sawicki M. 627/3 Chachulski B. see Jasinski G. 261/1 Chan S.C.M. see Kozanecka-Szmigiel A. 31/1 Chan S.C.M. see Wrobel W. 23/1 Chandramohan G. see Basavarajappa S. 357/2/1 Chandrasekar A. see Basavarajappa S. 357/2/1 Charar S. see Sadowski J. 617/3 Chaudhuri T. see Biswas P.K. 367/2/1 Chełkowska G. see Bajorek A. 867/3 Chernyshova M. see Kowalczyk L. 809/3 Chmist J. see Zając T. 795/3 Cieplak T., Yamabe C., Olchowik J. M., Ozonek J., Analysis of the process of ozone generation

and micro-channel intensity distribution by the discharge analysis method 1087/4 Ciesielski W. see Rybak A. 527/2/2 Cieślak K. J. see Olchowik J. M. 1127/4 Cieślak K., Olchowik J. M., Analysis of the wave packet interference pattern in the Young ex-

periment 1037/4 Ciosek M. see Sitarek A. 213/1 Czternastek H. see Lipiński M. 1009/4 Dąbrowski B. see Przysłupski P. 665/3 Dajka J., Zipper E., Persistent currents controlled by non-classical electromagnetic fields 769/3 De A. see Biswas P.K. 367/2/1 Deniszczyk J. see Bajorek A. 867/3 Deniszczyk J. see Gamża M. 569/3 Deniszczyk J. see Goraus J. 563/3 Derecha D. O. see Gorobets O.Yu. 1017/4 Dietl T. see Sawicki M. 627/3 Dłużewski P. see Przysłupski P. 665/3 Dobrowolski W. see Dziawa P. 777/3 Dobrzyński L. see Szymański K. 753/3 Domagała J.Z. see Sadowski J. 617/3 Dressler M. see Gadomski A. 935/4 Drozd M. see Gągor A. 237/1 Drulis H. see Zając T. 795/3 Dua L. see Biswas P.K. 367/2/1 Dudek M., Molenda J., Ceria-yttria-based solid electrolytes for intermediate temperature solid

oxide fuel cell 45/1

11

Dudek M., Róg G., Bogusz W., Kozłowska-Róg A., Bućko M., Zych Ł., Calcium zirconate as a solid electrolyte for electrochemical devices applied in metallurgy 253/1

Dudziak A. see Jaśkowska A. 1115/4 Dyakonenko N. L. see Bilozertseva V. I. 929/4 Dybko K. see Dziawa P. 777/3 Dybko K. see Przysłupski P. 665/3 Dygas J.R. see Ojczyk W. 103/1 Dygas J.R. see Kozanecka-Szmigiel A. 31/1 Dygas J.R. see Krok F. 13/1 Dygas J.R. see Łasińska A. 187/1 Dygas J.R. see Marzantowicz M. 195/1 Dygas J.R. see Wrobel W. 23/1 Dzhardimalieva G.I. see Sówka E. 311/2/1 Dziawa P., Osinniy V., Dobrowolski W., Dybko K., Łusakowska E., Taliashvili B., Story T.,

Smits C.J.P., Swagten H.J.M., Magnetic properties of (Eu,Gd)Te semiconductor layers 777/3 Dziembaj R. see Molenda M. 85/1 Edmonds K.W. see Sawicki M. 627/3 Failleau G. see Makowska-Janusik M. 891/4 Fainleib A.M. see Kripotou S. 477/2/2 Farley N.R.S. see Sawicki M. 627/3 Fave A. see Papet P. 1043/4 Fiertek P. see Plebańczyk M. 991/4 Fiertek P., Sadowski W., Processing of porous structures of YBa2Cu3O7–δ. High-temperature

superconductor 1103/4 Firlej L. see Kuchta B. 433/2/2 Firlej L., Kuchta B., Melting transitions of monolayers adsorbed in cylindrical nanopores 443/2/2 Florjańczyk Z. see Łasińska A. 187/1 Florjańczyk Z. see Marzantowicz M. 195/1 Folcik L. see Zając T. 795/3 Foltyn M., Zgirski M., Garbarczyk J., Wasiucionek M., Pałosz B., Gierlotka S., Nowiński J.L.,

New composite materials prepared by high-pressure infiltration of superionic glasses into dia-mond powder compacts 141/1

Foxon C.T. see Sawicki M. 627/3 Gadomski A., Dressler M., Santamaría-Holek I., Rubí J. M., Formation of soft material in terms

of a coupled matter migration-and-relaxation picture. A synchronous mode 935/4 Gągor A., Pietraszko A., Drozd M., Połomska M., Kaynts D., Structural phase transitions and

their influence on Cu+ mobility in superionic ferroelastic Cu6PS5I single crystals 237/1 Gallagher B.L. see Sawicki M. 627/3 Gamża M., Ślebarski A., Deniszczyk J., Electronic structure of CeRhIn5 and CeIrIn5 569/3 Garbarczyk J. see Foltyn M. 141/1 Garbarczyk J. see Pogorzelec-Glaser K. 245/1 Garbarczyk J. see Wasiucionek M. 181/1 Garbarczyk J. E. see Jóźwiak P. 147/1 Garbarczyk J.E. see Nowiński J.L. 161/1 Garcia G. see Ramirez R. 883/4 Gawroński M. see Szumiata T. 599/3 Gieniusz R. see Stupakiewicz A. 659/3 Gierlotka S. see Foltyn M. 141/1 Gil A., Magnetic interaction in RT

xX2 ternary compounds 577/3

12

Głogowski W., Ślebarski A., Photoemission study of CeRh1–xPdxAl. The effect of Pd doping on

electronic structure 551/3 Głuchowski P. see Hreniak D. 405/2/1 Gmitra M. see Wawrzyniak M. 695/3 Gomółka D. see Szytuła A. 557/3 Goraus J., Ślebarski A., Deniszczyk J., Electronic structure of Ce2Rh3Al9 563/3 Górka B. see Szumiata T. 599/3 Gorobets O. Yu. see Gorobets S.V. 1133/4 Gorobets O. Yu., Derecha D. O., Quasi-periodic microstructuring of iron cylinder surface under

its corrosion under combined electric and magnetic fields 1017/4 Gorobets S.V., Gorobets O. Yu., Goyko I. Yu., Mazur S. P., Stirring of electrolytes in the vicinity

of metallic matrix in a permanent magnetic field 1133/4 Gortenmulder T. see Plebańczyk M. 991/4 Gospodarek M. see Jaśkowska A. 1115/4 Goyko I. Yu. see Gorobets S.V. 1133/4 Grabecki G., PbTe constrictions for spin filtering 591/3 Grech E. see Marczyński S. 1077/4 Grech E. see Marczyński S. 1139/4 Gritzner G. see Zając T. 795/3 Grygoryeva O. see Kripotou S. 477/2/2 Gułkowski S. see Olchowik J. M. 1127/4 Gułkowski S., Olchowik J. M., Hydrogen interactions in magnetic resonance imaging. Histogram-

based segmentation of brain tissues 1051/4 Guskos N. see Marczyński S. 1077/4 Guskos N. see Marczyński S. 1139/4 Guskos N. see Narkiewicz U. 1067/4 Guskos N. see Typek J. 901/4 Guskos N., Typek J., Maryniak M., Żołnierkiewicz G., Podsiadły M., Arabczyk W., Lendzion

-Bieluń Z., Narkiewicz U., Effect of calcination and structural additives on the EPR spectra of nanocrystalline cobalt oxides 1095/4

Guskos N., Typek J., Żołnierkiewicz G., Błońska-Tabero A., Los S., Kempiński W., Effects of thermal treatment on magnetic properties of Ni2FeV3O11–δ compound 983/4

Halamus T. see Wojciechowski P. 507/2/2 Hałas S., 100 years of work function 951/4 Hasanain S. K. see Amirabadizadeh A. 913/4 Hreniak D., Głuchowski P., Stręk W., Bettinelli M., Kozłowska A., Kozłowski M., Preparation

and upconversion properties of Er3+, Yb3+:Y2Si2O7 nanocrystallites embedded in PVA poly-mer nanocomposites 405/2/1

Hsu T.Y. (Xu Zuyao) see Wang Ch. 351/2/1 Idzikowski B. see Szajek A. 855/3 Ignaszak A., Pasierb P., Komornicki S., The effect of humidity on the electrical properties of

Nasicon-type materials 95/1 Ivanov V. see Toliński T. 789/3 Jakubczyk E., Phase transitions in Co78Si9B13 and Fe78Si9B13 metallic glasses induced by isochro-

nal annealing 1027/4 Jarguz P., Paja A., Electrical resistivity of disordered monolayer metallic films 633/3 Jasinski G., Jasiński P., Chachulski B., Nowakowski A., Electrocatalytic gas sensors based on

Nasicon and Lisicon 261/1 Jasiński P. see Jasiński G. 261/1 Jasiński P., Solid-state electrochemical gas sensors 269/1

13

Jaśkowska A., Dudziak A., Gospodarek M., Śpiewla E., Intermolecular interactions in plant cells reflected by ultraweak luminescence phenomenon 1115/4

Javadi M., Tajdari M., Experimental investigation of the friction coefficient between aluminium and steel 305/2/1

Jaworowicz J., Kurant Z., Postava K., Maziewski A., Baczewski L.T., Wawro A., Domain struc-tures and magnetization processes in thin Co films with in-plane anisotropy 639/3

Jędryka E. see Wójcik M. 707/3 Jeszka J.K. see Tracz A. 517/2/2 Jeszka J.K. see Ulański P. 467/2/2 Jezierski A. see Szytuła A. 557/3 Jezierski A., Szytuła A., Kaczorowski D., Effect of spin-orbit coupling on the electronic structure

of bismuthide YbAuBi 683/3 Jóźwiak P. see Wasiucionek M. 181/1 Jóźwiak P., Garbarczyk J. E., Wasiucionek M., Evaluation of transference numbers in mixed

conductive lithium–vanadate–phosphate glasses 147/1 Jóźwik I. see Olchowik J. M. 1127/4 Jóźwik I., Olchowik J. M., Analysis of the processes of silicon epitaxial lateral overgrowth in Ar

ambient gas 967/4 Jung J. see Rybak A. 527/2/2 Kaczorowski D. see Jezierski A. 683/3 Kadłubowski S. see Ulański P. 467/2/2 Kaminski A. see Papet P. 1043/4 Kanski J. see Sadowski J. 617/3 Kantautas A. see Palubinskaite D. 395/2/1 Kantautas A., Palubinskaitė D., Vaickelionis G., Synthesis and hardening of fluoralinite cement 385/2/1 Kassiba A.-H. see Makowska-Janusik M. 891/4 Kaur R. see Kumar N. 375/2/1 Kaynts D. see Gągor A. 237/1 Kempiński W. see Guskos N. 983/4 Khlyap H. M. see Bilozertseva V. I. 929/4 Kimball C. see Przysłupski P. 665/3 Kiwi M. see Ramirez R. 883/4 Klimczuk T. see Plebańczyk M. 991/4 Kluska S. see Lipiński M. 1003/4 Kluska S. see Lipiński M. 1009/4 Kognovitskaya E. A. see Kuznetsov V. V. 1057/4 Kołodziej B. see Marczyński S. 1077/4 Kołodziej B. see Marczyński S. 1139/4 Kołodziejczyk A. see Zając T. 795/3 Komissarov I. see Przysłupski P. 665/3 Komornicki S. see Ignaszak A. 95/1 Kontou E. see Kripotou S. 477/2/2 Kontrym-Sznajd G. see Samsel-Czekała M. 611/3 Kopcewicz M. see Wandziuk P. 861/3 Kostyrya S.A. see Szajek A. 855/3 Kotwica A. see Molenda M. 85/1 Kowalczyk A. see Toliński T. 789/3 Kowalczyk L., Chernyshova M., Story T., Sipatov A.Yu., Photoluminescence in EuS–PbS–EuS

semiconductor structures with a double ferromagnetic barrier 809/3 Kowalik M. see Wiśniewska J. 761/3

14

Kowalik M., Wiśniewska J., Barnaś J., Torque due to spin-polarized current in ferromagnetic

single-electron transistors 815/3

Kozanecka-Szmigiel A. see Krok F. 13/1

Kozanecka-Szmigiel A. see Wrobel W. 23/1

Kozanecka-Szmigiel A., Krok F., Abrahams I., Wrobel W., Chan S.C.M., Dygas J.R., Structure

and electrical properties of oxide-ion conductors in the Bi3NbO7–Bi3YO6 system 31/1

Kozanecki M. see Polanowski P. 453/2/2

Kozłowska A. see Hreniak D. 405/2/1

Kozłowska-Róg A. see Dudek M. 253/1

Kozłowski M. see Hreniak D. 405/2/1

Krajczyk L. see Macalik B. 155/1

Kripotou S., Pissis P., Kontou E., Fainleib A.M., Grygoryeva O., Bey I., Structure–property

relationships in brittle polymer networks modified by flexible cross-links 477/2/2

Krivonos S. S. see Bilozertseva V. I. 929/4

Krok F. see Kozanecka-Szmigiel A. 31/1

Krok F. see Łasińska A. 187/1

Krok F. see Marzantowicz M. 195/1

Krok F. see Ojczyk W. 103/1

Krok F. see Wrobel W. 23/1

Krok F., Abrahams I., W. Wrobel, A. Kozanecka-Szmigiel, Dygas J.R., Oxide-ion conductors for

fuel cells 13/1

Krompiewski S., Electronic transport through carbon nanotubes with ferromagnetic electrodes

and in magnetic fields 649/3

Krop K. see Zając T. 795/3

Kuchta B. see Firlej L. 443/2/2

Kuchta B., Firlej L., Mechanism of adsorption in cylindrical nanopores. The roles of adsorbate–

adsorbate interactions in stabilizing the adsorbed phase 433/2/2

Kuczmaszewski J. see Rudawska A. 975/4

Kumar N., Kaur R., Mehra R.M., Characterization of sol-gel derived yttrium-doped n-ZnO/p-Si

heterostructure 375/2/1

Kurant Z. see Jaworowicz J. 639/3

Kurzydłowski K. J. see Narkiewicz U. 1067/4

Kuznetsov V. V., Rubtsov E. R., Kognovitskaya E. A., Epitaxial films of GaInPAsSb quinary

solid solutions 1057/4

Lemiti M. see Papet P. 1043/4

Lendzion-Bieluń Z. see Guskos N. 1095/4

Leonowicz M. see Sówka E. 311/2/1

Lipiński M., Kluska S., Czternastek H., Zięba P., Graded SiOxNy layers as antireflection coatings

for solar cells application 1009/4

Lipiński M., Panek P., Kluska S., Zięba P., Szyszka A., Paszkiewicz B., Defect passivation of

multicrystalline silicon solar cells by silicon nitride coatings 1003/4

Lipiński S., Spin and orbital Kondo effect in electrostatically coupled quantum dots 689/3

Liu R.S. see Ojczyk W. 103/1

Los S. see Guskos N. 983/4

Luciński T. see Stobiecki F. 833/3

Luciński T. see Wandziuk P. 861/3

Łasińska A., Dygas J.R., Krok F., Marzantowicz M., Florjańczyk Z., Tomaszewska A., Zygadło

-Monikowska E., Ionic conductivity of polymer electrolytes comprising acrylonitrile–butyl

acrylate copolymer and a lithium salt 187/1

Łasocha W. see Molenda M. 85/1

15

Łusakowska E. see Dziawa P. 777/3 Macalik B., Suszyńska M., Krajczyk L., Effect of the microstructure on transport properties of

doped SLS glasses 155/1 Makowska-Janusik M., Kassiba A.-H., Failleau G., Bouclé J., Interface effects on the NLO prop-

erties of guest–host materials 891/4 Malys M. see Wrobel W. 23/1 Marczyński S., Guskos N., Typek J., Grech E., Kołodziej B., Magnetic ordering processes in

manganese(II) di(hydrogen malonate) monohydrate complex studied by ESR spectroscopy 1139/4 Marczyński S., Typek J., Guskos N., Grech E., Kołodziej B., Electron spin resonance study of

copper(II) hydrogenmalonate dihydrate complex 1077/4 Markiewicz E. see Pogorzelec-Glaser K. 245/1 Maryniak M. see Guskos N. 1095/4 Maryniak M. see Narkiewicz U. 1067/4 Marzantowicz M. see Łasińska A. 187/1 Marzantowicz M., Dygas J.R., Krok F., Zygadło-Monikowska E., Florjańczyk Z., In-situ study of

the influence of crystallization on the ionic conductivity of polymer electrolytes 195/1 Marzec J. see Molenda J. 75/1 Marzec J. see Ojczyk W. 103/1 Marzec J. see Świerczek K. 115/1 Marzec J. see Zając W. 123/1 Marzec J., Ojczyk W., Molenda J., Delithiation of olivine – structured LiFe

xMn1–xPO4 cathode

materials. Mössbauer studies 69/1 Matysiak H. see Narkiewicz U. 1067/4 Maude D. see Sadowski J. 617/3 Maziewski A. see Jaworowicz J. 639/3 Maziewski A. see Stefanowicz W. 783/3 Maziewski A. see Stupakiewicz A. 659/3 Mazur S. P. see Gorobets S.V. 1133/4 Mehra R.M. see Kumar N. 375/2/1 Mierczyńska A. see Tracz A. 517/2/2 Misztal-Faraj B. see Ziabicki A. 493/2/2 Mohammed A.-R.I. see Ul-Hamid A. 319/2/1 Molak A. see Talik E. 713/3 Molenda J. see Dudek M. 45/1 Molenda J. see Marzec J. 69/1 Molenda J. see Ojczyk W. 103/1 Molenda J. see Świerczek K. 115/1 Molenda J. see Zając W. 123/1 Molenda J., High-temperature solid-oxide fuel cells. New trends in materials research 5/1 Molenda J., Lithium-ion batteries – state of art. Novel phospho-olivine cathode materials 61/1 Molenda J., Ziemnicki M., Molenda M., Bućko M., Marzec J., Transport and electrochemical

properties of orthorhombic LiMnO2 cathode material for Li-ion batteries 75/1 Molenda M. see Molenda J. 75/1 Molenda M., Dziembaj R., Kotwica A., Łasocha W., Structural, thermal and electrical properties

of lithium–manganese spinel with a sulphur-substituted oxygen sublattice 85/1 Morkowski J.A. see Szajek A. 839/3 Mroczkowska M. see Nowiński J.L. 161/1 Mucha J. see Olchowik J. M. 1127/4 Mucha M. see Zdyb A. 1109/4 Murawski L. see Barczyński R.J. 221/1

16

Narkiewicz U. see Guskos N. 1095/4 Narkiewicz U., Arabczyk W., Pełech I., Guskos N., Typek J., Maryniak M., Woźniak M.

J., Matysiak H., Kurzydłowski K. J., FMR study of nanocarbon materials obtained by carburi-sation of nanocrystalline iron 1067/4

Narojczyk J., Wojciechowski K. W., Computer simulation of Poisson’s ratio of soft polydisperse discs at zero temperature 921/4

Neumann M. see Bajorek A. 867/3 Nichiporuk O. see Papet P. 1043/4 Niihara N. see Tracz A. 517/2/2 Nowakowski A. see Jasinski G. 261/1 Nowiński J.L. see Foltyn M. 141/1 Nowiński J.L. see Wasiucionek M. 181/1 Nowiński J.L., Crystallization processes in silver-ion conducting borate and phosphate glasses 169/1 Nowiński J.L., Mroczkowska M., Garbarczyk J.E., Wasiucionek M., Crystallization processes in

superionic AgI–Ag2O–P2O5 ([Ag2O]/[P2O5] = 3) glasses 161/1 Ojczyk W. see Marzec J. 69/1 Ojczyk W., Marzec J., Dygas J.R., Krok F., Liu R.S., Molenda J., Structural and transport proper-

ties of LiFe0.45Mn0.55PO4 as a cathode material in Li-ion batteries 103/1 Olchowik J. M. see Cieplak T. 1087/4 Olchowik J. M. see Cieślak K. 1037/4 Olchowik J. M. see Gułkowski S. 1051/4 Olchowik J. M. see Jóźwik I. 967/4 Olchowik J. M. see Zdyb A. 1109/4 Olchowik J. M., Gułkowski S., Cieślak K. J., Banaś J., Jóźwik I., Szymczuk D., Zabielski K.,

Mucha J. , Zdrojewska M., Adamczyk J., Tomaszewski R., Influence of temperature on the ef-ficiency of monocrystalline silicon solar cells in the South-eastern Poland conditions 1127/4

Osinniy V. see Dziawa P. 777/3 Otsubo T. see Tracz A. 517/2/2 Ozonek J. see Cieplak T. 1087/4 Paja A. see Jarguz P. 633/3 Paja A. see Spisak B.J. 605/3 Pakula T. see Polanowski P. 453/2/2 Palubinskaitė D. see Kantautas A. 385/2/1 Palubinskaite D., A. Kantautas, Influence of tribomechanical milling and activation of primary

mixtures on the synthesis of calcium silicate hydrates 395/2/1 Pałosz B. see Foltyn M. 141/1 Panek P. see Lipiński M. 1003/4 Papet P., Nichiporuk O., Fave A., Kaminski A., Bazer-Bachi B., Lemiti M., TMAH texturisation

and etching of interdigitated back-contact solar cells 1043/4 Pasierb P. see Ignaszak A. 95/1 Pasierb P., Application of Nasicon and YSZ for the construction of CO2 and SO

x potentiometric

gas sensors 279/1 Paszkiewicz B. see Lipiński M. 1003/4 Pavlík G. see Szumiata T. 599/3 Pawlaczyk Cz. see Pogorzelec-Glaser K. 245/1 Pełech I. see Narkiewicz U. 1067/4 Penc B. see Szytuła A. 557/3 Pereiro M. see Warda K. 731/3 Piekarska J., Ptasińska M., Żukowska G., Wyciślik H., Siekierski M., Novel composite polymer-

in-salt electrolytes based on a PVdF matrix obtained with a solvent-free technique 205/1

17

Pietraszko A. see Gągor A. 237/1 Pietsch U. see Wojciechowski P. 507/2/2 Pissis P. see Kripotou S. 477/2/2 Plebańczyk M., Klimczuk T., Gortenmulder T., Fiertek P., Sadowski W., Influence of conditions

of synthesis on superconductivity in Nd2–xCexCuO4–y 991/4

Podsiadły M. see Guskos N. 1095/4 Pogorzelec-Glaser K., Garbarczyk J., Pawlaczyk Cz., Markiewicz E., Electrical conductivity in

new imidazolium salts of dicarboxylic acids 245/1 Polanowski P., Kozanecki M., Pakula T., Non-mononotonical behaviour of reaction diffusion

front width. Simulation studies in frame of dynamic lattice liquid (DLL) model 453/2/2 Połomska M. see Gągor A. 237/1 Pomogailo A.D. see Sówka E. 311/2/1 Postava K. see Jaworowicz J. 639/3 Postava K. see Stupakiewicz A. 659/3 Przysłupski P., Tsarou A., Komissarov I., Dybko K., Dłużewski P., Sawicki M., Dąbrowski B.,

Kimball C., Magnetism and superconductivity in oxide ferromagnet/superconductor het-erostructures 665/3

Ptasińska M. see Piekarska J. 205/1 Radecka M., TiO2:Au thin film electrodes for electrochemical solar cells 285/1 Radhakrishna K. see Ramachandra M. 333/2/1 Rajewski P. see Sitarek A. 213/1 Ramachandra M., Radhakrishna K., Sliding wear, slurry erosive wear, and corrosive wear of

aluminium/SiC composite 333/2/1 Ramirez R., Weissmann M., Garcia G., Kiwi M., Carbon encapsulated iron nanowires 883/4 Rekas M. see Trenczek-Zając A. 53/1 Rodriguez C.H. see Sadowski J. 617/3 Rong Y. see Wang Ch. 351/2/1 Róg G. see Dudek M. 253/1 Rubí J. M. see Gadomski A. 935/4 Rubtsov E. R. see Kuznetsov V. V. 1057/4 Rudawska A., Kuczmaszewski J., Surface free energy of zinc coating after finishing treatment 975/4 Rybak A., Jung J., Ciesielski W., Ulanski J., Photovoltaic effect in novel polysilane with phe-

nothiazine rings and its blends with fullerene 527/2/2 Rysiakiewicz-Pasek E. see Żelazowska E. 133/1 Sadowski J., Domagała J.Z., Kanski J., Rodriguez C.H., Terki F., Charar S., Maude D., How to

make GaMnAs with a high ferromagnetic phase transition temperature? 617/3 Sadowski W. see Fiertek P. 1103/4 Sadowski W. see Plebańczyk M. 991/4 Samsel-Czekała M., Kontrym-Sznajd G., Biasini M., Electronic structures of f-electron intermet-

allic compounds studied by positrons 611/3 Santamaría-Holek I. see Gadomski A. 935/4 Satuła D. see Szymański K. 753/3 Sawicki M. see Przysłupski P. 665/3 Sawicki M., Wang K.-Y., Edmonds K.W., Campion R.P., Staddon C.R., Farley N.R.S.,

Foxon C.T., Dietl T., Gallagher B.L., In-plane uniaxial anisotropy rotations in (Ga, Mn)As thin films 627/3

Schmidt M. see Stobiecki F. 833/3 Shkumbatyuk P. S. see Bilozertseva V. I. 929/4 Siekierski M. see Piekarska J. 205/1 Siekierski M. see Sitarek A. 213/1

18

Sipatov A.Yu. see Kowalczyk L. 809/3 Sitarek A., Rajewski P., Żukowska G., Wyciślik H., Ciosek M., Siekierski M., Application of

silicon and titanium alkoxylates as bifunctional additives for composite polymeric electrolytes 213/1 Skowroński J.M., Ważny A., Electrooxidation of methanol in alkaline solution on composite

electrodes 291/1 Smardz K. see Smardz L. 821/3 Smardz K., Smardz L., Structure and electronic properties of Fe–Ti thin films 827/3 Smardz L. see Smardz K. 827/3 Smardz L., Smardz K., Week interlayer exchange coupling in Fe–Zr and Fe–Ti layered structures 821/3 Smits C.J.P. see Dziawa P. 777/3 Sovák P. see Szumiata T. 599/3 Sówka E., Leonowicz M., Andrzejewski B., Pomogailo A.D., Dzhardimalieva G.I., Cobalt

nanoparticles processed by thermal decomposition of metal-containing monomers 311/2/1 Spisak B.J., Paja A., Conductivities and transmission coefficients of ultra-thin disordered metallic

films 605/3 Staddon C.R. see Sawicki M. 627/3 Staniucha I., Urbaniak-Kucharczyk A., The influence of roughness on the Curie temperature and

magnetisation in multilayers 701/3 Stawowska J. see Bartczak W.M. 421/2/2 Stefanowicz W., Tekielak M., Bucha V., Maziewski A., Zablotskii V., Baczewski L.T., Waw-

ro A., Dendritic domain structures in ultrathin cobalt films 783/3 Stobiecki F. see Szymański B. 849/3 Stobiecki F., Urbaniak M., Szymański B., Luciński T., Schmidt M., Aleksiejew J., Ni80Fe20/Au/Co/Au

multilayers as magnetic field sensors 833/3 Story T. see Dziawa P. 777/3 Story T. see Kowalczyk L. 809/3 Stręk W. see Hreniak D. 405/2/1 Stupakiewicz A., Gieniusz R., Postava K., Tekielak M., Maziewski A., Szerel I., Wawro A.,

Baczewski L.T., Magnetic ordering in ultra-thin Co films grown on vicinal substrates 659/3 Stysiak D. see Bajorek A. 867/3 Subramanian R. see Basavarajappa S. 357/2/1 Suszyńska M. see Macalik B. 155/1 Szajek A., Electronic and magnetic properties of Nd5Co19B6 and Nd5Co21B4 843/3 Szajek A., Kostyrya S.A., Idzikowski B., Electronic and magnetic properties of metastable

Fe22PdB6 and Fe22PtB6 compounds 855/3 Szajek A., Morkowski J.A., Calculated magnetic moments and electronic structures of the com-

pounds Rn+1Co3n+5B2n, R = Gd, Tb, n = 0, 1, 2, 3, and ∞ 839/3

Szerel I. see Stupakiewicz A. 659/3 Szumiata T., Brzózka K., Górka B., Gawroński M., Pavlík G., Sovák P., Evolution of hyperfine

parameters in Co-doped FINEMET 599/3 Szymański B. see Stobiecki F. 833/3 Szymański B., Stobiecki F., Urbaniak M., Temperature dependence of magnetization reversal in

Ni80Fe20/Au/Co/Au multilayers 849/3 Szymański K., Dobrzyński L., Satuła D., Voronina E., Yelsukov E.P., Magnetization distribution in

nanocrystalline Fe0.48Al0.52 753/3 Szymczuk D. see Olchowik J. M. 1127/4 Szyszka A. see Lipiński M. 1003/4 Szytuła A. see Jezierski A. 683/3 Szytuła A. see Wawrzyńska E. 543/3 Szytuła A., Complex magnetic phenomena in f-electron intermetallic compounds 737/3

19

Szytuła A., Gomółka D., Jezierski A., Penc B., Wawrzyńska E., Winiarski A., Electronic struc-tures of intermetallic rare earth compounds 557/3

Ślebarski A. see Głogowski W. 551/3 Ślebarski A. see Goraus J. 563/3 Ślebarski A. see Gamża M. 569/3 Śpiewla E. see Jaśkowska A. 1115/4 Świerczek K., Marzec J., Molenda J., La1–xSr

xCo1–y–zFeyNizO3 perovskites – possible new cathode

materials for intermediate-temperature solid-oxide fuel cells 115/1 Škorvánek I. see Wójcik M. 707/3 Švec P. see Wójcik M. 707/3 Swagten H.J.M. see Dziawa P. 777/3 Tajdari M. see Javadi M. 305/2/1 Takimiya K. see Tracz A. 517/2/2 Taliashvili B. see Dziawa P. 777/3 Talik E., Adamiec M., Molak A., Photoelectron spectroscopy of Ba-doped lead germanate – Pb5Ge3O11 713/3 Tawancy H.M. see Ul-Hamid A. 319/2/1 Tekielak M. see Stefanowicz W. 783/3 Tekielak M. see Stupakiewicz A. 659/3 Terki F. see Sadowski J. 617/3 Toliński T., Ivanov V., Kowalczyk A., Electrical resistivity of RNi4Al and RNi4Cu 789/3 Tomaszewska A. see Łasińska A. 187/1 Tomaszewski R. see Olchowik J. M. 1127/4 Tracz A., Mierczyńska A., Takimiya K., Otsubo T., Niihara N., Jeszka J.K., Conducting polymer

films with new organic donor MDT-TSF: preparation and properties 517/2/2 Tran V.H., Hall effect in strongly correlated electron systems 669/3 Trenczek-Zając A., Rekas M., Electrical properties of Nb-doped titanium dioxide TiO2 at room

temperature 53/1 Troć R., Study of the valence state of U ions in quasi-two-dimensional ternary uranium com-

pounds 585/3 Tsarou A. see Przysłupski P. 665/3 Typek J. see Guskos N. 1095/4 Typek J. see Guskos N. 983/4 Typek J. see Marczyński S. 1077/4 Typek J. see Marczyński S. 1139/4 Typek J. see Narkiewicz U. 1067/4 Typek J., Guskos N., ESR study of spin dynamics in (Er0.5Y0.5)2Cu2O5 solid solutions 901/4 Ulanski J. see Rybak A. 527/2/2 Ulański P., Kadłubowski S., Jeszka J.K., Nanogel formation by intrachain radiation-induced

cross-linking. Simulation and experiment 467/2/2 Ul-Hamid A., Tawancy H.M., Al-Jaroudi S.S., Mohammed A.-R.I., Abbas N.M., Carburisation of

Fe–Ni–Cr alloys at high temperatures 319/2/1 Urbaniak M. see Stobiecki F. 833/3 Urbaniak M. see Szymański B. 849/3 Urbaniak-Kucharczyk A. see Staniucha I. 701/3 Vaickelionis G. see Kantautas A. 385/2/1 Voronina E. see Szymański K. 753/3 Wandziuk P., Luciński T., Kopcewicz M., Influence of Ge on antiferromagnetic coupling in Fe/Si

multilayers 861/3 Wang Ch., Rong Y., Hsu T.Y. (Xu Zuyao), Progressive evolution from giant magnetoresistance

to anisotropic magnetoresistance in CoNi–Al2O3 granular films 351/2/1

20

Wang K.-Y. see Sawicki M. 627/3 Warda K., Wojtczak L., Baldomir D., Pereiro M., Arias J., The influence of effective mass on

magnetoresistance in ultrathin Fe/Cr/Fe films 731/3 Wasiucionek M. see Foltyn M. 141/1 Wasiucionek M. see Jóźwiak P. 147/1 Wasiucionek M. see Nowiński J.L. 161/1 Wasiucionek M., Garbarczyk J., Bacewicz R., Jóźwiak P., Nowiński J.L., EXAFS/XANES stud-

ies of the local structure of amorphous ionic and electronic-ionic conductors 181/1 Wawro A. see Jaworowicz J. 639/3 Wawro A. see Stefanowicz W. 783/3 Wawro A. see Stupakiewicz A. 659/3 Wawrzyniak M., Gmitra M., Barnaś J., Resonant tunnelling through a single level quantum dot

attached to ferromagnetic leads with non-collinear magnetizations 695/3 Wawrzyńska E. see Szytuła A. 557/3 Wawrzyńska E., Szytuła A., Magnetic ordering schemes in R3T4X4 compounds 543/3 Ważny A. see Skowroński J.M. 291/1 Weissmann M. see Ramirez R. 883/4 Werpachowska A.M. see Wilamowski Z. 803/3 Werpachowska A.M., Wilamowski Z., RKKY coupling in diluted magnetic semiconductors 675/3 Wieja M. see Błachowicz T. 643/3 Wilamowski Z. see Werpachowska A.M. 675/3 Wilamowski Z., Werpachowska A.M., Spintronics in semiconductors 803/3 Winiarski A. see Szytuła A. 557/3 Wiśniewska J. see Kowalik M. 815/3 Wiśniewska J., Kowalik M., Barnaś J., Transport characteristics of ferromagnetic single-electron

transistors with non-collinear magnetizations 761/3 Wojciechowski K. W. see Narojczyk J. 921/4 Wojciechowski P., Halamus T., Pietsch U., Mesomorphic organisation of (2-hydroxypropyl)-

cellulose under the influence of silica networks 507/2/2 Wójcik M., Jędryka E., Škorvánek I., Švec P., Partitioning of Co upon the nanocrystallisation of

soft magnetic FeCo(Zr, Nb)B alloys – a 59Co NMR study 707/3 Wojtczak L. see Warda K. 731/3 Woźniak M. J. see Narkiewicz U. 1067/4 Wrobel W. see Kozanecka-Szmigiel A. 31/1 Wrobel W. see Krok F. 13/1 Wrobel W., Krok F., Abrahams I., Kozanecka-Szmigiel A., Malys M., Chan S.C.M., Dygas J.R.,

Bi8V2O17 – a stable phase in the Bi2O3–V2O5 system 23/1 Wronka A., First principles calculations of zinc blende superlattices with ferromagnetic dopants 725/3 Wyciślik H. see Piekarska J. 205/1 Wyciślik H. see Sitarek A. 213/1 Yamabe C. see Cieplak T. 1087/4 Yelsukov E.P. see Szymański K. 753/3 Zabielski K. see Olchowik J. M. 1127/4 Zablotskii V. see Stefanowicz W. 783/3 Zając T., Folcik L., Chmist J., Kołodziejczyk A., Drulis H., Krop K., Gritzner G., Magnetisation

and electron spin resonance of the colossal magnetoresistive La0.67Ca0.33Mn1–xFexO3 795/3

Zając W., Marzec J., Molenda J., The effect of aluminium on the electrical and electrochemical properties of phospho-olivine – a cathode material for Li-ion batteries 123/1

Zdrojewska M. see Olchowik J. M. 1127/4 Zduniewicz T. see Żelazowska E. 133/1

21

Zdyb A., Olchowik J. M., Mucha M., Dependence of GaAs and Si surface energy on the misori-entation angle of crystal planes 1109/4

Zgirski M. see Foltyn M. 141/1 Ziabicki A., Misztal-Faraj B., Interpretation of light depolarization data in terms of polymer

crystallinity 493/2/2 Zięba P. see Lipiński M. 1003/4 Zięba P. see Lipiński M. 1009/4 Ziemnicki M. see Molenda J. 75/1 Zipper E. see Dajka J. 769/3 Zych Ł. see Dudek M. 253/1 Zygadło-Monikowska E. see Łasińska A. 187/1 Zygadło-Monikowska E. see Marzantowicz M. 195/1 Żelazowska E., Borczuch-Łączka M., Rysiakiewicz-Pasek E., Zduniewicz T., Li-ion conducting

organic–inorganic hybrid electrolytes 133/1 Żołnierkiewicz G. see Guskos N. 1095/4 Żołnierkiewicz G. see Guskos N. 983/4 Żukowska G. see Piekarska J. 205/1 Żukowska G. see Sitarek A. 213/1

Key Word Index*

________

*Page number/Issue number.

α-AgI 169/1

ab-initio 883/4

ab initio methods 683/3

abrasion 357/2/1

acrylonitrile–butyl acrylate copolymer 187/1

actinide intermetallic compounds 585/3

activation energy 1027/4

adhesive properties 975/4

adsorption mechanism 433/2/2

air monitoring 269/1

Al-based MMC 333/2/1, 357/2/1

alternating anisotropy 833/3

aluminium 305/2/1

amorphous alloy 855/3

amorphous ionic conductor 181/1

anisotropic magnetoresistance 351/2/1

anisotropy of magnetization 913/4

annealing 617/3

antiferromagnetic coupling 861/3

antimonide 1057/4

antireflection coating 1009/4

argyrodite 237/1

ascorbic acid 1115/4

Ba2Cu3O7–δ 1103/4

bismuth oxide 13/1, 31/1

bismuth vanadate 23/1

bismuth-niobium-yttrium oxide 31/1

Boltzmann equation 731/3

borate glass 169/1

carbon nanotube 649/3

carbonate 279/1

carburisation 319/2/1, 1067/4

casting 357/2/1

catalysis 421/2/2

cathode material 61/1, 75/1, 103/1, 115/1

cathode material for lithium cells 69/1

ceramic filler 213/1

ceria 45/1

chalcogenide semiconductor 929/4

Characeae cells 1115/4

cluster 951/4

CO2 279/1

cobalt 659/3, 783/3

cobalt nanoparticles 311/2/1

cobalt oxide 1095/4

Co-doped FINEMET 599/3

cold emission 951/4

composite 205/1

composite material 891/4

composite polymeric electrolyte 213/1

conductive glasses 147/1

conductivity 155/1, 195/1

CoNi–Al2O3 granular film 351/2/1

copper complex 901/4, 1077/4

corrosion 333/2/1

cross-linking 467/2/2

crystal electric field effect 577/3

crystal morphology 967/4

crystal structure 23/1, 229/1

crystallization 161/1, 169/1, 195/1, 1027/4

C–U characteristics 375/2/1

Curie temperature 701/3

current-induced magnetic switching 815/3

current–voltage characteristics 929/4

defect 617/3

defect structure 53/1

degree of crystal orientation 493/2/2

degree of crystallinity 493/2/2

density functional theory 725/3

depolarization 493/2/2

depolarization ratio 493/2/2

dicarboxylic acid 245/1

dielectric spectroscopy 477/2/2

digital ferromagnetic heterostructure 725/3

disorder 605/3

disordered system 633/3

domain structure 639/3

doping 991/4

effective mass of electrons 731/3

elastic constant 921/4

electrical conductivity 23/1, 205/1, 245/1

electrical properties 45/1

24

electrical resistivity 633/3, 789/3

electrocatalysis 291/1

electrochemical gas sensor 269/1

electrochemical properties 123/1

electrochromic coating 133/1

electrode material 5/1

electrolyte 5/1, 253/1

electron spin resonance 795/3

electron transport 605/3

electronic structure 551/3, 557/3, 569/3, 611/3,

683/3, 737/3, 827/3, 839/3, 843/3, 855/3, 867/3

electronic transport 649/3

electronic-ionic conductivity 221/1

electro-optics 891/4

emergent behaviour 935/4

entangled state 769/3

EPR 983/4, 1095/4

ESR 795/3, 901/4, 1077/4, 1139/4

europium chalcogenide 809/3

EXAFS 181/1

exchange bias 643/3, 883/4

exchange coupling 665/3, 821/3

fast-ion conductor 237/1

f-electron intermetallic 737/3

Fe–Ni–Cr alloy 319/2/1

Fermi surface 719/3

ferromagnetic nanocomposite 311/2/1, 617/3,

627/3, 675/3, 777/3

ferromagnetic single-electron transistor 761/3

fluctuations 935/4

fluoralinite 385/2/1

fluorine-doped tin oxide 367/2/1

flux pinning 913/4

FMR 1067/4

FP LMTO 683/3

FPLO 683/3

freezing 443/2/2

friction coefficient 305/2/1

fuel cell 13/1

fullerene 527/2/2

furnace tube 319/2/1

GaMnAs 627/3

gas sensor 261/1

giant magnetoresistance 351/2/1

glass 221/1

glass-crystalline composite 141/1

GMR sensors 833/3

graded refractive index 1009/4

guest–host material 891/4

half-metals 725/3

Hall effect 669/3, 1027/4

heavy fermions 569/3

heavy fermion system 669/3

heterostructure 375/2/1

high-pressure infiltration 141/1

high temperature 319/2/1

histogram-based segmentation 1051/4

HRTEM 1067/4

hybrid composite 507/2/2

hydration 385/2/1

hydrogen 421/2/2

hydrolysis 213/1

hydrothermal synthesis 395/2/1

(2-hydroxypropyl)cellulose 507/2/2

hyperfine field 707/3

hyperfine interactions 599/3

imidazolium salt 245/1

impedance spectroscopy 141/1

impedance spectroscopy 53/1, 95/1, 147/1

intercalation 61/1, 75/1, 103/1

interface 1109/4

intermetallic compounds 611/3

inverse-power potential 921/4

ion exchange 155/1

ion interactions 205/1

ionic conductivity 39/1

ionic conductor 141/1

ionization potential 951/4

ionizing radiation 467/2/2

iron carbide 1067/4

iron substituted manganite 795/3

I–U characteristics 375/2/1

Kerr effect 639/3

Kondo effect 689/3

Kondo insulators 563/3

lead germanate 713/3

LiFePO4 61/1, 75/1, 123/1

light emitting diode 1057/4

lignocaine 1115/4

Li-ion battery 61/1, 75/1, 85/1, 103/1

LiMnyFe1–yPO4 69/1, 103/1

liquid phase epitaxy 967/4, 1057/4

Lisicon 261/1

LiTFSI 195/1

lithium 205/1

25

lithium bis(trifluoromethane-sulfone)imide 187/1

lithium deintercalation 69/1

lithium diffusion 103/1

lithium-ion battery 123/1

local structure 181/1

luminescence 405/2/1

magnetic anisotropy 627/3, 659/3

magnetic domains 783/3

magnetic field 1017/4, 1133/4

magnetic film 821/3

magnetic moment 753/3, 843/3, 855/3, 839/3

magnetic multilayers 827/3, 833/3, 849/3, 861/3

magnetic nanostructure 311/2/1

magnetic ordering 543/3

magnetic properties 737/3, 867/3

magnetic resonance 675/3

magnetic resonance imaging 1051/4

magnetic semiconductor 809/3

magnetic structure 577/3

magnetic susceptibility 585/3

magnetisation 701/3

magnetism 883/4

magnetization reversal 639/3, 643/3

magnetoelectrolysis 1017/4

magnetohydrodynamic stirring 1133/4

magneto-optic vector magnetometry 639/3

magnetoresistance 649/3

magnetoresistance 665/3

magnetoresistance 731/3

main α relaxation 477/2/2

malonate complex 1077/4

manganese complex 1139/4

matter agglomeration 935/4

mechanical processing 395/2/1

mechanical properties 45/1, 333/2/1

melting 443/2/2

metal matrix composite 333/2/1

metallic glass 1027/4

metallic melt 253/1

methanol oxidation 291/1

MgO 421/2/2

microgel 467/2/2

microstructure 95/1

microstructuring 1017/4

mixed electronic-ionic conduction 147/1

mixed valence 585/3

MMC 333/2/1, 357/2/1

model soft material 935/4

modified polycyanurate network 477/2/2

molecular beam epitaxy 617/3

Monte Carlo simulations 433/2/2, 443/2/2, 467/2/2

mortar 385/2/1

Mössbauer polarimetry 753/3

Mössbauer spectroscopy 69/1, 599/3, 861/3

multilayer 701/3, 731/3, 821/3

multivortex dynamic structure 1133/4

nanocermet 285/1

nanocomposite 405/2/1

nanocrystalline alloys 599/3

nanocrystalline Fe0.48Al0.52 753/3

nanocrystalline material 707/3

nanogel 467/2/2

nanopores 433/2/2

nanoscopic system 689/3

nanostructures 591/3

nanotubes 883/4

nanowires 883/4

[Na+ + Al3+]-inserted tobermorite 395/2/1

Nasicon 95/1, 261/1, 279/1

Nb-doping 53/1

Nd2–xCexCuO4–y 991/4

neutron diffraction 543/3

nickel, platinum 291/1

NMR 707/3

non-classical electromagnetic field 769/3

nonlinear optics 891/4

open porous structure 1103/4

optical retardation 493/2/2

organic-inorganic hybrid 133/1

oxide ion conductor 23/1, 31/1

oxygen deficiency 983/4

oxygen ion conductor 253/1

oxynitride 1009/4

oxysulphide spinel 85/1

ozone generation 1087/4

palladium 421/2/2

passivation 1003/4

PbTe 591/3

perovskite 115/1, 253/1

perpendicular magnetic anisotropy 849/3

persistent current 769/3

phase segregation 795/3

phase transition 229/1, 507/2/2, 1027/4

phosphate glass 169/1

phospho-olivine 61/1, 75/1, 123/1

photoeffect 951/4

26

photoelectrolysis 285/1

photoelectron spectroscopy 557/3, 683/3, 713/3

photogeneration quantum yield 527/2/2

photovoltaic effect 527/2/2

photovoltaic module 1127/4

Poisson’s ratio 921/4

poly(ethylene oxide) 195/1

polyaniline 291/1

polydispersity 921/4

polymer chain dynamics 467/2/2

polymer crystallization 493/2/2

polymer electrolyte 187/1, 195/1

polymer-in-salt electrolyte 187/1, 205/1

polymorphic transformation 229/1

polyoxytetramethylene glycol (PTMG) 477/2/2

polysilane 527/2/2

polyvinyl alcohol 367/2/1

porous material 443/2/2

positron annihilation 611/3

potentiometric gas sensor 279/1

probe 253/1

projection evolution 1037/4

quantum ballistic transport 591/3

quantum dot 695/3, 719/3

quantum measurement 1037/4

quantum wire 719/3

radical recombination 467/2/2

rare earths 405/2/1

rare earth compound 777/3,789/3

rare earth compounds 557/3, 577/3, 683/3

839/3, 843/3, 543/3

rare earth–nickel intermetallics 867/3

reduction 1067/4

relative humidity 95/1

relaxation time 605/3

RKKY coupling 675/3

RKKY model 577/3

self-organization 1017/4

SEM 319/2/1, 367/2/1

semiconducting III–V materials 1057/4

semiconductor 803/3

IV–VI semiconductor 809/3

III–V semiconductors 1109/4

SiC 333/2/1, 357/2/1, 891/4

silent discharge 1087/4

silicon nitride coating 1003/4

silicon solar cell 1003/4

silicon thin films 967/4

silver vanadate composite 141/1

single crystal 713/3

single electron transistor 815/3

singlet oxygen 1115/4

soda lime silicate glass 155/1

SOFC 5/1

soft matter 921/4

solar cell 1043/4, 1127/4

solar energy 1087/4, 1127/4

sol-gel 133/1, 367/2/1, 375/2/1, 507/2/2

sol-gel method 85/1

solid electrolyte 13/1, 269/1, 31/1, 45/1

solid ionic electrolyte 133/1

solid solution 53/1, 1057/4

solid-oxide fuel cell 5/1, 115/1

solid-state electrolyte 261/1

SOx 279/1

spillover 421/2/2

spin chains 901/4

spin current 803/3

spin dependent transport 695/3

spin filter 591/3

spin-orbit coupling 803/3

spin-polarized transport 689/3, 761/3, 815/3

spintronics 643/3, 777/3, 803/3, 809/3

steel 305/2/1

strongly correlated electron system 551/3,

563/3, 669/3

structural phase transition 237/1

structure 929/4

sulphate 279/1

superconducting transition 665/3

superconductivity 569/3, 913/4, 991/4

superionic phosphate glass 161/1

surface diffusion 421/2/2

surface free energy 975/4

surface ionization 951/4

texturing 1043/4

theory of compensators 493/2/2

thermal stability 85/1

thermionic emission 951/4

thermoelectric power 585/3

thin film 605/3, 719/3, 929/4

titanium dioxide 53/1, 285/1

TMAH 1043/4

transference number 147/1

transition metal compounds 557/3

transmission coefficient 605/3

27

transport properties 115/1

trilayer structure 665/3

tunnel magnetoresistance 695/3, 761/3

two-dimensional electron gas 633/3

two-slit experiment 1037/4

ultrathin film 659/3, 783/3

ultraweak luminescence 1115/4

upconversion process 405/2/1

vanadate glass 181/1

vanadate oxide 983/4

viscoelasticity 935/4

wear 333/2/1, 357/2/1

work function 951/4

XANES 181/1

XPS 569/3, 867/3

X-ray analysis 229/1

X-ray diffraction 237/1

YSZ 279/1

yttrium-doped ZnO 375/2/1

zirconia 39/1, 45/1