MAGYAR
TUDOMÁNYOS AKADÉMIA
MÛSZAKI FIZIKAI és ANYAGTUDOMÁNYI
KUTATÓ INTÉZET
RESEARCH INSTITUTE FOR TECHNICAL PHYSICS AND MATERIALS SCIENCE
|
Dr. Zofia VÉRTESY
Senior
Research Fellow |
|
Address: H-1121
Mail to: H-1525 Budapest,
E-mail: vertesyz@mfa.kfki.hu
Phone: +36-1-3922222
Fax: +36-1-3922226
Education:
1973
M.Sc. in physics,
1998
Ph.D. in technical
sciences,
Employment:
1973-1976
Research fellow, Experimental
Branch of Technological Institute of Electronics,
1977-1998
Research fellow, Central Research Institute for Physics,
1998-
Senior Scientist, Research Institute for Technical Physics and Materials
Science,
Professional experience:
Study, characterization and qualification of GGG substrates and LPE magnetic layers by means of the polarization microscopy and Bitter method.Elaboration of the method based on magnetic contrast type II, for the SEM observation of the magnetic domain structure in amorphous and nanocrystalline materials;
wide application of the above and Bitter/SEM methods in study of the mechanical stress, annealing, and implantation effect on magnetic properties of materials via domain structure.
Investigatin of materials by means of scanning electron microscope (SEM, FESEM, TEM) and energy dispersive spectrometer (EDS) - investigation of the structural and morphological properties of crystals, ceramics, metals, thin films.
Characterization (FESEM, EDS) of the carbon nanotubes CNTs (as prepared and cleaned), and ceramic composites enforced by CNTs .
Investigation of complexity and evolution of photonic nanoarchitectures in bio-organisms (opal /inverse opal type nanoarchitectures and multilayer structures).
Scientific activities:
Published 78 papers in refereed international journals and 97 conference papers.
Received
more as 510 independent citations
Participation in scientific programs
Hungarian Scientific Research Fund (OTKA grants):
T 19147: Influence of the ion implantation on porous materialsT030435: Carbon nanostructures investigated by scanning probe microscopy and computer simulation
T026153: Preparation and investigation of oxide single crystalline films for magnetooptical applications
T042972: Comparative physiomorphological and termodynamical investigation on the scales of monophyletic and non-monophyletic lycaenies butterflies (Insecta, Lepidoptera, Lyceanidae) species groups with special regard to the convergent phenomeanon of discoloration
T 67793: Investigation of nanoarchitectures composed of nanostructures
Other Hungarian projects
GVOP Környezetvédelmi Műszaki Fejlesztés Pályázat:
"Vízszűrési technológia kidolgozása kis
koncentrációjú szénhidrogén szennyezés eltávolítására"
NANOGAS (MTA-MEH pályázat)
OM Környezetvédelmi Műszaki Fejlesztés Pályázat:
"Nagy hatásfokú hidrogénalapú energiatároló kifejlesztése"
GVOP Környezetvédelmi Műszaki Fejl.
"Vízszűrési technológia
kidolgozása kis koncentrációjú szénhidrogén
szennyezés eltávolítására"
Jedlik Ányos Program (JÁP): „Development of an alternative
energy based hydrogen production and storage system” (H_TERTAR)” (2008-11)
Baross Gábor Program –Research & development infrastructure development in Central Hungary (REG_KM_INFRA_09), SPM-GRAF, „High resolution nanopatterning of graphene with the use of scanning probe microscope”
International projects
PECO COPERNICUS project:
"Study of connection between microstructure and magnetic hysteresis properties of
amorphous and crystalline materials"
INCO
COPERNICUS project: “Novel nondestructive material technique based on a
new magnetic field measurement principle”
COPERNICUS
PORSIS project: "Investigation of porous silicon based structures for
integrated gas sensing applications"
EU5
NANOCOMP HPRN-CT-2000-00037 -“Large scale synthesis of carbon nanotubes and their composite
materials”
NATO
Science for Peace Programme
project: “Li-ion rechargeable microbatteries
integrable on low-power
IC’s”
EU5 NANOCOMP HPRN-CT-2000-00037: "Large scale synthesis of carbon nanotubes and their composite materials"
EU6 NENAMAT INCO-CT-2003-510363 (SSA) Network for Nanostructured Materials of ACC
EU6 BIOPHOT (NEST-Pathfinder, STREP) (INCO-12915/2005) Complexity and evolution of photonic nanostructures in bio-organisms: templates for material sciences.
KOREAN-HUNGARIAN JOINT LABORATORY FOR NANOSCIENCES (2011 -2012)
„Nanopatterning of graphene grown by chemical vapor deposition and its
characterization”
Participation in scientific cooperation with
Facultés Universitaires Notre-Dame de
Institute of Physics, Polish Academy of Sciences, Warsaw, Poland
Institute of Physics, Czech Academy of Sciences, Prague, Czech Republic
P. J. Šafárik University, Dep. of Experimental Physics, Košice, Slovakia
State University “Lvivska Politechnica”, Ukraine
Babes-Bolyai University, Faculty of Chemistry, Department of Inorganic Chemistry, Cluj, Romania
Membership
Microscopy Society of
European Microscopy Society
European Microbeam Analysis Society
Professional travels
Visitor at scientific institutions in
List of main publications
Vértesy G., Ueda S., Uchimoto T., Takagi T.,
Molnár G., Dózsa L., Vértesy Z.,. Koós A. A, Vouroutzis N., Dimitriadis C. A., Paraskevopoulos K. M., Reactive deposition epitaxy growth of iron silicide nanoparticles on Si(001). Energy Procedia 3 (2011) 35–41
Piszter G., Kertész K., Vértesy Z, Bálint Zs. and Biró L.P. Color based discrimination of chitin–air nanocomposites in butterfly scales and their role in conspecific recognition, Anal. Methods, 3 (2011) 78-83
Piszter Gábor, Kertész Krisztián, Vértesy Zofia, Bálint Zsolt, Biró László Péter, Photonic Nanoarchitectures in Butterfly Scales Allowing Species Identification.: Proceedings of the 2nd European Future Technologies Conference and Exhibition 2011 (FET 11), PROCEDIA COMPUTER SCIENCE 7 (2011) 200-201
Biró LP, Kertesz K, Horvath E, Mark GI, Molnar G, Vertesy Z, Tsai JF, Kun A, Balint Z, Vigneron JP. Bioinspired artificial photonic nanoarchitecture using the elytron of the beetle Trigonophorus rothschildi varians as a 'blueprint', JOURNAL OF THE ROYAL SOCIETY INTERFACE 7: (47) (2010) 887-894
Osváth, Z.; Koós,
A.A.; Grobert, N.; Vértesy,
Z.; Horváth, Z.E.; Biró, L.P., Scanning
Tunneling Microscopy and Spectroscopy of Nitrogen Doped
Multi-Walled Carbon Nanotubes Produced by the Pyrolysis
of Ferrocene and Benzylamine, Journal of Nanoscience and Nanotechnology 9 (10) (2009) 6139-6143
Márk G. I, Vértesy
Z, Kertész K, Bálint Zs, Biró
L. P, Order-disorder effects
in structure and color relation
of photonic-crystal-type nanostructures in butterfly wing scales, PHYSICAL REVIEW E 80 (2009) 051903-051903-11
Pfeifer J., Horváth E., Vértesy Z., Arató P., Balázsi Cs., Chemical
methods for scanning electron microscope characterization of non-oxide ceramics
and composites, Key Engineering Materials 413 (2009) 382-385
Vértesy Z, Kertész K, Bálint Zs, Márk
G.I, Tapasztó
L, Biró L P., Photonic crystal type nanoarchitectures
in butterfly wing scales, Life
Science Symposium, 14 European Microscopy Congress 2008, September 1 to 5 at Aachen,
Germany, Proceedings: EMC
2008, Vol. 3: Life Science, pp. 101–102, (eds. A. Aretz, B. Hermanns-Sachweh, J.
Mayer)
Vigneron JP, Kertész K, Vértesy Z, Rassart M, Lousse V, Bálint Zs, Biró LP, Correlated diffraction and fluorescence in the backscattering iridescence of the male butterfly
Troides magellanus (Papilionidae), PHYSICAL REVIEW E 78, 021903 _2008
Biró LP, Kertész K, Vértesy Z. Bálint Zs.,
Photonic nanoarchitectures occurring in butterfly
scales as selective gas/vapor
sensors in The Nature of Light:
Light in Nature II, edited
by Creath K, Proc. of SPIE
Vol. 7057, (2008) 705706-1 – 705706-8.
O. Koszor, F. Wéber, Z. Vértesy, Z. E. Horváth, Z. Kónya, L. P. Biró,
I. Kiricsi, P. Arató, Cs. Balázsi, Preparation of Si3N4 composites with single wall
carbon nanotube and exfoliated graphite, Materials
Science Forum Vol. 589 (2008) pp 409-414,
Kertész, K., Molnár, G., Vértesy, Z., Koós,
A.A., Horváth, Z.E., Márk, G.I., Tapasztó, L., Bálint,
Zs., Tamáska, I., Deparis, O., Vigneron, J.P., Biró, L.P., Photonic band gap materials in butterfly
scales: A possible source of "blueprints", Materials Science and
Engineering B: Solid-State Materials for Advanced Technology, Volume 149, Issue
3, 15 April 2008, Pages 259-265
Sarkozi Z, Kertesz K, Koos AA, Osvath Z, Tapaszto L, Horvath ZE, Nemes-Incze P, Jenei IZ, Vertesy
Z, Daroczi NS, Darabont A, Pana O, Biro
LP, Synthesis of carbon nanotubes from liquid hydrocarbons
using a spray-pyrolysis method, JOURNAL OF OPTOELECTRONICS AND ADVANCED MATERIALS,
10 (9) (2008) 2307-2310
Biró LP, Bálint Z, Kertész K, Vértesy Z, Márk GI, Tapasztó L, Lousse V, Vigneron JP: Quasiordered photonic band gap materials of biologic
origin: butterfly scales In: Photonic Materials, Devices, and Applications II
(Ed. Serpengüzel A, Badenes
G, Righini G), 2007, 659318-1-659318-8,
Zs. Bálint, Z. E. Horváth,
K. KertésZ, Z. Vértesy
& L. P. Biró, Observations on scale structures
and spectroscopic properties of Polyommatus lycaenid butterflies (Lepidoptera: Lycaenidae),
ANNALES HISTORICO-NATURALES MUSEI NATIONALIS HUNGARICI, Volume 99 Budapest,
2007 pp. 115–127.
Biro, LP; Kertesz,
K; Vertesy, Z; et al. Living photonic crystals:
Butterfly scales - Nanostructure and optical properties MATERIALS SCIENCE &
ENGINEERING C-BIOMIMETIC AND SUPRAMOLECULAR SYSTEMS, 27 (5-8): Sp. Iss. SI SEP 2007, 941-946
Kertész, K., Molnár, G., Vértesy, Z., Koós, A.A., Horváth, Z.E., Márk, G.I., Tapasztó, L., Bálint, Zs., Tamáska, I., Deparis, O., Vigneron, J.P., Biró,
L.P., Photonic band gap materials in butterfly scales: A possible source of
"blueprints", Materials Science and Engineering B: Solid-State
Materials for Advanced Technology, Volume 149, Issue 3, 15 April 2008, Pages
259-265
Jean Pol Vigneron, Jacques M. Pasteels, Donald M. Windsor, Zofia Vértesy, Marie Rassart, Thomas Seldrum, Jacques Dumont, Olivier Deparis, Virginie Lousse, László P. Biró, Damien Ertz, and
Victoria Welch, Switchable reflector in the Panamanian
tortoise beetle Charidotella egregia (Chrysomelidae: Cassidinae),
PHYSICAL REVIEW E 76, 031907 _2007
Cs. Balázsi, Zs, Czigány, F. Wéber, Zs. Kövér,
Z. Kónya, Z. Vértesy, L.P. Biro, I. Kiricsi,
P. Arató, „Carbon Nanotubes as Ceramics
Matrix Reinforcments”,
Materials Science Forum Vols. 537-538, pp. 97-104, 2007
László P. Biró, Zsolt Bálint, Zofia
Vértesy, Krisztián Kertész, Géza I. Márk, Virginie Lousse, and Jean-Pol
Vigneron, Living Photonic Crystals: Nanostructure of the Scales of
Cyanophrys Remus Butterfly, Nanopages 1 (2006) 2,
195–208
Cs.Balázsi, Z. Czigány, F. Wéber, Z. Kónya, Z. Vértesy, L. Péter Biró, I. Kiricsi, P. Arató, Silicon Nitride – Carbon Nanotube Composites, Materials Science Forum Vol. 554 (2007) pp. 123-128, online at http://www.scientific.net
E. Zsolt Horváth, A. Antal Koós,
Krisztián Kertész, Zofia Vértesy, György Molnár, Mária Ádám, Csaba
Dücső, József Gyulai, P. László Biró, Mats of
Functionalized Carbon Nanotubes for Gas/Vapor Sensing, Nanopages 1, (2006) 2, 200-217
Márk Géza István, Bálint Zsolt, Kertész Krisztián, Vértesy Zofia és Biró
László Péter, A biológiai eredetű
fotonikus kristályok csodái; Fizikai szemle 4, 116-121, 2007
Z.E. Horváth , K. Kertész, L. Pethő, A.A. Koó´s,
L. Tapasztó, Z. Vértesy, Z.
Osváth, Al. Darabont, P. Nemes-Incze, Zs. Sárközi , L.P. Biró
: “Inexpensive, upscalable nanotube
growth methods”, Current Applied Physics 6 (2006) 135-140
Kertesz K, Balint Z, Vertesy Z, Mark GI, Lousse V, Vigneron JP, Rassart M, Biro LP,
Gleaming and dull surface textures from photonic-crystal-type nanostructures in
the butterfly Cyanophrys remus,
PHYSICAL REVIEW E 74 (2): Art. No. 021922 Part 1, AUG 2006
K. Kertész , Zs. Bálint , Z. Vértesy , G.I. Márk , V. Lousse, J.-P. Vigneron , L.P. Biró´: Photonic
crystal type structures of biological origin: Structural and spectral
characterization; Current Applied Physics 6 (2006) 252-259
Balazsi C, Fenyi
B, Hegman N, Kover Z, Weber
F, Vertesy Z, Konya Z, Kiricsi I, Biro LP, Arato P,
Development of CNT/Si3N4 composites with improved mechanical and electrical
properties , COMPOSITES PART B-ENGINEERING 37 (6): 418-424 2006
Cs. Balázsi,
F. Wéber, P. Arató, B. Fényi, N. Hegman, Z. Kónya, I. Kiricsi, Z. Vértesy and L. P. Biró,
„Development of CNT-Silicon Nitrides with Improved Mechanical and Electrical
Properties”, ADVANCES IN SCIENCE AND TECHNOLOGY Vol. 45 (2006) pp. 1723-1728 ,
online at http://www.scientific.net
Cs. Balázsi, Zs. Czigány, F. Wéber, Z. Kónya, Zs. Kasztovszky,
Z. Vértesy, L.P. Biró,
Z. Vértesy, Zs. Bálint, K. Kertész, J. P. Vigneron, V. Lousse, L. P. Biró, Wing scale
micro- and nanostructures in butterflies - natural photonic crystals, Journal
of Microscopy, Vol.
László P. Biró, Zsolt Bálint, Zofia
Vértesy, Krisztián Kertész, Géza I. Márk, Virginie Lousse, and Jean-Pol
Vigneron, Living Photonic Crystals: Nanostructure of the Scales of
Cyanophrys Remus Butterfly, Nanopages 1 (2006) 2,
195–208
E. Zsolt Horváth, A. Antal Koós,
Krisztián Kertész, Zofia Vértesy, György Molnár, Mária Ádám, Csaba
Dücső, József Gyulai, P. László Biró, Mats of
Functionalized Carbon Nanotubes for Gas/Vapor Sensing, Nanopages 1, (2006) 2, 200-217
Cs. Balázsi, F. Wéber, Zs. Kövér,
Z. Shen, Z. Kónya, Zs. Kasztovszky, Z. Vértesy, L.P. Biró,
I. Kiricsi and P. Arató: “Application of carbon nanotubes
to silicon nitride matrix reinforcements”; Current Applied Physics 6 (2006) 124-130
Darabont S, Kertész K, Sárközi Z, Tapasztó L, Biró LP, Horváth ZE, Koós AA, Osváth Z.: A porlasztásos pirolízis
módszer és a növesztési paraméterek vizsgálata a szén nanoszerkezetek előállításában, Korszerű kísérleti és elméleti fizikatanulmányok
10 – 126-126 (2005) Scientia Kiadó
Darabont A, Daróczi N., Nemes-Incze P, Sarkozi Zs, Horvath
ZE, Kertesz K, Koos AA, , Tapaszto L, Vertesy Z, Biro LP., “Production of nanotubes by
the catalyzed vapor phase pyrolyzing
process (II), Studia Universitatis Babes-Bolyai, Physica, L, 4a (2005)
Jean Pol Vigneron, Marie Rassart, Zofia Vértesy, Krisztián Kertész, Michaël Sarrazin, László P. Biró, Damien
Ertz, and Virginie Lousse; “Optical structure and function of the white filamentary hair
covering the edelweiss bracts”; PHYSICAL REVIEW E 71 (1): Art. No.
011906 Part 1 (2005)
Jean-Pol Vigneron, Virginie M. Lousse, Laszlo P.
Biro, Zofia Vertesy, Zolt Balint; “Reflectance of topologically
disordered photonic-crystal films”; in Proceedings of SPIE Volume: 5733,
pp.308-315, 2005 Photonic Crystal Materials and Devices III, ed. Ali Adibi,
Shawn-Yu Lin, Axel Scherer
Zs. Bálint ,
Z. Vértesy, L. P. Biró ;
„Microstructures and nanostructures of high Andean Penaincisalia
lycaenid butterfly scale (Lepidoptera: Lycaenidae): descriptions and interpretations”; Journal of
Natural History Publisher: Taylor & Francis
Issue: Volume 39, Number 31 / 15 2935 – 2952, (2005)
Cs. Balázsi, Z. Shen, Z. Kónya, Zs. Kasztovszky, F. Wéber, Z. Vértesy, L. P. Biró, I. Kiricsi, P. Arató,
„Processing of carbon nanotube reinforced
silicon nitride composites by spark plasma sintering”, COMPOSITES SCIENCE AND
TECHNOLOGY 65 (5): 727-733 Sp. Iss.
SI APR (2005)
Darabont A, Nemes-Incze
P, Kertesz K, Tapaszto L, Koos AA, Osvath Z, Sarkozi Z, Vertesy Z, Horvath ZE,
Biro LP; „Synthesis of carbon nanotubes by spray pyrolysis and their investigation by electron microscopy”,
JOURNAL OF OPTOELECTRONICS AND ADVANCED MATERIALS 7 (2): 631-636 APR (2005)
L. Tapasztó, K. Kertész, Z.
Vértesy, Z.E. Horváth, A.A. Koós,
Z. Osváth, Zs. Sárközi, Al. Darabont
and L.P. Biró: „Diameter and morphology dependence on
experimental conditions of carbon nanotube arrays
grown by spray pyrolysis” Carbon, Volume 43, Issue 5, Pages 970-977 (2005)
Zs. Bálint,
Z. Vértesy, K. Kertész and
L. P. Biró: “Scanning Electron Microscopic
Investigations in Butterfly Wings: Detecting Scale Micro- and
Nanomorphology and Understanding their Functions”,
FORMATEX Microscopy Book Series No. 2., eds, Méndez-Vilas, A. and Labajos-Broncano,
L., Current Issues on Multidisciplinary Microscopy Research and Education,
Formatex pp.87-92, (2004)
Z. Vértesy, Zs. Bálint, K. Kertész, D. Méhn, I. Kiricsi, V. Lousse, J-P. Vigneron and L. P. Biró: „Modifications
of wing scale microstructures in lycaenid butterflies”, Microscopy and Analysis, 18 (4):
25-27, (
P. Urban, B. Idzikowski, S. Kostyrya, B. Andrzejewski, Z. Vértesy : “Grains
size distribution and thermal stability of surfactant stabilized
Fe3O4-based magnetic fluid.” CZECHOSLOVAK JOURNAL OF PHYSICS 54: D683-D686 Part
2 Suppl. D (2004)
G.Molnár, L.Dózsa, G.Pető, Z. Vértesy, A. Koós, Z E. Horváth E.Zsoldos Thickness deependent aggregation of Fe-silicide on Si substrate, Thin Solid Films 459(2004)48-52
L. Dózsa, E.Horváth, G.Molnár, A.L. Tóth,
Z. Vértesy, E.Vázsonyi, G.Pető: “Characteristics of FeSi2 quantum dots on silicon”,
Eur. Phys.
J. Appl. Phys. 27, 85-88 (2004)
L. P. Biró,
Zs. Bálint, K. Kertész, Z. Vértesy, G. I. Márk, Z. E. Horváth, J. Balázs, D. Méhn, I. Kiricsi, V. Lousse, and J.-P. Vigneron: “Role
of photonic-crystal-type structures in the thermal regulation of a Lycaenid butterfly sister species pair”, Physical Review E
67 021907 (2003)
L.P. Biró, Z.E. Horváth, A.A. Koós, Z. Osváth, Z. Vértesy, Al. Darabont, K. Kertész, C. Neamţu, Zs. Sárközi, L. Tapasztó: “Direct synthesis of multi-walled and single-walled carbon nanotubes by spray-pyrolysis”; J OPTOELECTRON ADV M 5 (3): 661-666 SEP (2003)
A. Zelenáková, P. Kollár, M. Kuźminski, Z. Vértesy, W. Rieheman: “Magnetic properties and domain structure investigation of laser treated Finemet”, J. Magn. Magn. Mat. 254: 152-154 Sp. Iss. SI JAN (2003)
É. Vázsonyi, Z. Vértesy, A. Tóth, J. Szlufcik: “Anisotropic etching of silicon in a two
component alkaline solution”; Journal of Micromechanics and Microengineering,
13 165-169 (2003)
Istvan Banyasz, Miklos Fried, Csaba Duecso, and Zofia Vertesy: “Phase grating fabrication in glass via ion
implantation”; Proc. SPIE Int. Soc. Opt. Eng. 4944, 171 (2003)
G. Vértesy,
I. Tomáš, Z. Vértesy: “On the temperature dependence of domain wall
pinning field in soft, uniaxial magnetic materials”,
J PHYS D APPL PHYS 35 (7): 625-630 APR 7 2002
Biro LP, Khanh NQ, Vertesy Z, Horvath ZE, Osvath Z, Koos A,
Gyulai J, Kocsonya A, Konya Z, Zhang XB, Van Tendeloo G, Fonseca A, Nagy JB: “Catalyst traces and other impurities
in chemically purified carbon nanotubes grown by CVD”, MAT SCI ENG C-BIO S 19 (1-2): 9-13 Sp. Iss. SI JAN 2 2002
I. Bányász, M. Fried, Cs. Dücsõ, Z. Vértesy: “Recording of
transmission phase gratings in glass by ion implantation”, Appl. Phys. Lett. 79(23), 3755-3757, 2001
A. Zelenáková,
P. Kollár Z. Vértesy, M. Kuźminski, D. Ramin, W. Rieheman: " Influence of small circular holes on the coercivity and domain structure of finemet";
Scripta Mater 44 (4), 613-617, 2001
Keszei B, Vértesy Z, Vértesy G. “Growth of Bi and Ga substituted YIG and LuIG layers by LPE method”, Crystal Research and Technology, 36 (8-10, 953-959, 2001
Igor M. Syvorotka, Sergii B. Ubizskii, Marcus Kuhn, Miroslav Kucera, Zofia Vértesy: “Growth and Characterization of the in-plane Bi, Pr and Bi, Sc Substituted Lutetium Iron Garnet Films for Magnetooptic Visuallization”, J.Phys D: Appl.Phys. 34, 1178-1187, 2001
A. Zelenáková, P. Kollár, Z. Vértesy, M. Kuzminski, D. Ramin, W. Rieheman: "Domain branching in surface layer of laser treated Finemet", Acta Physica Slovaca vol. 50 No. 4, 501-506, 2000
L.P. Biró, G. Molnár, I. Szabó, Z. Vértesy, Z. E. Horváth, Z. Kónya, P. Piedigrosso, A.
Fonseca, J. B.Nagy and P. A. Thiry:
“Selective nucleation and growth of carbon nanotubes
at the CoSi2/Si interface”, Appl. Phys. Lett. 76, 706, 2000
G. Vértesy, A. Gasparics, Z. Vértesy, E. Tóth-Kádár, “Influence of the core material polishing on the Fluxset sensor`s operation”, J. Magn. Magn. Mat.215-216, 762-764, 2000
M. Pardavi-Horvath, G. Vértesy, B. Keszei, Z. Vértesy, "Rotational and domain wall motion ftereffect in a patterned array of small particles", J. Appl. Phys.Vol.87, No.9 pp.7025-7027, 2000
L.P. Biró, R. Erlich, R. Tellgmann, A. Gromov, N. Krawez, M. Tschaplyguine, M.M. Pohl, E. Zsoldos, Z. Vértesy, Zs. Horváth, E.E.B. Campbell: "Growth of carbon nanotubes by fullerene decomposition in the presence of transition metals", (Chemical Physics Letters) CPL 306, 155-162, 1999
G. L. Molnár, G. Petõ, Z. Vértesy, E. Zsoldos: “Kinetic shape formation during Gd thin film and Si (100) solid phase reaction”, Appl. Physics Letters 74, 12, 1672-1674, 1999
L. Sziráki, Á. Cziráki, Z. Vértesy, L Kiss, V. Ivanova, G. Raichevski, S. Vitkova, S. and Ts. Marinova: “Zn and Zn-Sn alloy coatings with and without chromate layers.
G. Vértesy, A. Gasparics, Z. Vértesy: “Improving the sensivity of Fluxser magnetometer by processing of the sensor core”, JMMM 196-197, 333-334, 1999
A. Juhász, P. Szommer, J. Lendvai, Z. Vértesy, G. Petõ: “Mechanical properties of bismuth implanted amorphous Ge film”, Nuclear Instruments and Methods in Physics Research B, (148)1-4, 355-359, 1999
M. Pardavi-Horvath, G. Vértesy, B. Keszei, Z. Vértesy: “Switching mechanism of single domain particles in a two dimensional array”; IEEE Transaction on Magnetics, Vol.35.No.5., 3871-73, 1999
L. Sziráki, Á. Cziráky, I. Geröcs, Z. Vértesy and L. Kiss: "A kinetic model of the spontaneous passivation and corrosion of zinc in near neutral Na2SO4 solutions", Electrochimica Acta, Vol.43, Nos. 1-2, 175-186, 1998
É. Kisdi-Koszó, I. Szabó, É. Zsoldos, Z. Vértesy. J. Lábár, P. Kollár, M. Kuzminski: “Dependence of Magnetic Properties on copper Content in Finemet Type thin Layers”, Material Science Forum 235-238,.749-754, 1997
F. Pászti, A. Manuaba, E. Szilágyi, É. Vázsonyi, Z. Vértesy: “Densification and noble gas retention of ion-implanted porous silicon” Nuclear Instruments and Methods in Physics Research B, 117 (1996) 253-259
É. Kisdi-Koszó, I. Szabó, Z. Vértesy, M. Kuzminski, P. Kollár : “Magnetic properties of finemet-type thin layers” JMMM 160, 333-334, 1996
G. Vértesy,
Z. Vértesy, É. Kisdi-Koszó, M. Kuzminski, H.K. Lachowicz: "Evolution of the Domain Structure in FeCuNbSiB Amorphous Alloy Annealed below and above Its Nanocrystallization Temperature", phys.stat.sol(a) 143, 149, 1994
A.Imre, Z. Vértesy, T.Pajkossy and L.Nyikos: "Morphology of cobalt electrodeposits", Fractals 1, 1, 59-66, 1993
E.Szilágyi, F.Pászti, Z. Vértesy: "Influence of nitrogen ion implantation on wear studied by a new laboratory wear test", Nuclear Instruments and Methods in Physics Research B, 58, 98, 1991
L.Malkinski, S.Kiss, L.F.Kis, Z. Vértesy: "Influence of magnetic annealing on shear modulus and internal friction of Fe 78 Si 10 B12 metallic Glasses", Electron Technology 23, 101, 1990
Z. Vértesy,
É.Kisdi-Koszó: "Mechanical stress and time
dependence effect on the domain structure of metallic glasses", Mat Sci E A, 110, L13, 1989
G.Vértesy, A.Lovas,
J.Szöllôsy, Z. Vértesy:
"Wide temperature range position sensor using amorphous ribbon", Phys
Sci 39, 663, 1989
L.Potocky, P.Kollár,
Z.Juranek, L.Novák, É.Kisdi-Koszó, Z. Vértesy:
"Surface magnetic properties of Fe Cr B metallic glasses influenced by
different heat treatments", Phys Sci, 40, 540,
1989
J.Fink-Finowicki, G.Konczos,
J.Krzywinski, A.Siemko, T.Tarnóczi, Z. Vértesy:
"Stress dependent permability after-effect in metallic
glasses with induced anistropy", Act Phys Pol A 76, 163, 1989
L.Potocky, P.Kollár,
Z.Juránek, E.Kisdi-Koszó, G.Vértesy, L.Pogány, Z. Vértesy: "The role of stresses in surface magnetic
properties of some metallic glasses" Act Phys Pol
A 72, 801, 1987
E. B. Vázsonyi,
S. Holly and Z. Vértesy: Characterization of UV
hardening process, Microelectronic Engineering, Volume 5, Issues 1-4, December
1986, Pages 341-347
E. B. Vázsonyi,
Z. Vértesy and S. Holly: Characterization of a
two-layer resist, Microelectronic Engineering, Volume 3, Issues 1-4, December
1985, Pages 525-532
G.Vértesy, I.Tomás,
Z. Vértesy, M.Balaskó:
"Temperature hysteresis of demagnetized domain
structure" phys.stat.sol /a/ 77 K87, 1983