György Molnár
György Molnár
Institute of Technical Physics and Materials Science, Centre for Energy Research
Bestätigte E-Mail-Adresse bei
Zitiert von
Zitiert von
Electronic structure of gold nanoparticles deposited on SiOx/Si (100)
G Pető, GL Molnar, Z Paszti, O Geszti, A Beck, L Guczi
Materials Science and Engineering: C 19 (1-2), 95-99, 2002
Gold nanoparticles deposited on SiO2/Si (100): Correlation between size, electron structure, and activity in CO oxidation
L Guczi, G Petö, A Beck, K Frey, O Geszti, G Molnár, C Daróczi
Journal of the American Chemical Society 125 (14), 4332-4337, 2003
Neutron-diffraction study of the structure of evaporated pure amorphous silicon
S Kugler, G Molnár, G Petö, E Zsoldos, L Rosta, A Menelle, R Bellissent
Physical Review B 40 (11), 8030, 1989
Nucleation and growth modes of ALD ZnO
Z Baji, Z Labadi, ZE Horvath, G Molnár, J Volk, I Bársony, P Barna
Crystal growth & design 12 (11), 5615-5620, 2012
The structure and properties of graphene on gold nanoparticles
Z Osváth, A Deák, K Kertész, G Molnár, G Vértesy, D Zámbó, C Hwang, ...
Nanoscale 7 (12), 5503 - 5509, 2015
Photonic band gap materials in butterfly scales: A possible source of “blueprints”
K Kertész, G Molnár, Z Vértesy, AA Koós, ZE Horváth, GI Márk, L Tapasztó, ...
Materials Science and Engineering: B 149 (3), 259-265, 2008
On the composition depth profile of electrodeposited Fe–Co–Ni alloys
L Péter, A Csik, K Vad, E Tóth-Kádár, Á Pekker, G Molnár
Electrochimica Acta 55 (16), 4734-4741, 2010
Thickness‐dependent formation of Gd‐silicide compounds
G Molnár, I Geröcs, G Petö, E Zsoldos, E Jároli, J Gyulai
Journal of applied physics 64 (12), 6746-6749, 1988
Influence of Cu deposition potential on the giant magnetoresistance and surface roughness of electrodeposited Ni–Co/Cu multilayers
BG Tóth, L Péter, J Dégi, Á Révész, D Oszetzky, G Molnár, I Bakonyi
Electrochimica Acta 91, 122-129, 2013
Post-selenization of stacked precursor layers for CIGS
Z Baji, Z Lábadi, G Molnár, B Pécz, AL Tóth, J Tóth, A Csik, I Bársony
Vacuum 92, 44-51, 2013
Light-field-driven current control in solids with pJ-level laser pulses at 80 MHz repetition rate
V Hanus, V Csajbók, Z Pápa, J Budai, Z Márton, GZ Kiss, P Sándor, ...
Optica 8 (4), 570-576, 2021
Highly conductive epitaxial ZnO layers deposited by atomic layer deposition
Z Baji, Z Lábadi, G Molnár, B Pécz, K Vad, ZE Horváth, PJ Szabó, ...
Thin Solid Films 562, 485-489, 2014
Bioinspired artificial photonic nanoarchitecture using the elytron of the beetle Trigonophorus rothschildi varians as a ‘blueprint’
LP Biró, K Kertész, E Horváth, GI Márk, G Molnár, Z Vértesy, JF Tsai, ...
Journal of the Royal Society Interface 7 (47), 887-894, 2010
The role of defects in chemical sensing properties of carbon nanotube films
ZE Horváth, AA Koós, K Kertész, G Molnár, G Vértesy, MC Bein, T Frigyes, ...
Applied Physics A 93, 495-504, 2008
Enhancement of oxidation resistance in Cu and Cu (Al) thin layers
ZE Horvath, G Pető, Z Paszti, E Zsoldos, E Szilagyi, G Battistig, T Lohner, ...
Nuclear Instruments and Methods in Physics Research Section B: Beam …, 1999
Evolution of Structure with Spacer Layer Thickness in Electrodeposited Co∕ Cu Multilayers
I Bakonyi, L Péter, ZE Horváth, J Pádár, L Pogány, G Molnár
Journal of the Electrochemical Society 155 (11), D688, 2008
Near-substrate composition depth profile of direct current-plated and pulse-plated Fe–Ni alloys
K Neuróhr, A Csik, K Vad, G Molnár, I Bakonyi, L Péter
Electrochimica Acta 103, 179-187, 2013
Formation and characterization of semiconductor Ca2Si layers prepared on p-type silicon covered by an amorphous silicon cap
L Dózsa, G Molnár, Z Zolnai, L Dobos, B Pécz, NG Galkin, SA Dotsenko, ...
Journal of Materials Science 48, 2872-2882, 2013
Epitaxy of GdSi≊1.7 on <111>Si by solid phase reaction
G Molnár, I Gerocs, G Peto, E Zsoldos, J Gyulai, E Bugiel
Applied physics letters 58 (3), 249-250, 1991
Epitaxy of orthorhombic gadolinium disilicide on< 100> silicon
I Geröcs, G Molnár, E Jároli, E Zsoldos, G Petö, J Gyulai, E Bugiel
Applied physics letters 51 (25), 2144-2145, 1987
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