Hopp
Béla független hivatkozási listája a Scopus és
a Science Direct alapján
/2012.
január 20./
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APPLIED PHYSICS A-MATERIALS
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APPLIED SURFACE SCIENCE 252
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7. Böhme R; Otto T;
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APPLIED SURFACE SCIENCE 252
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8. Böhme; R.; Zimmer; K.; Rauschenbach; B.
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transparent materials: High quality surface patterning and figuring for
micro-optical applications
Proceedings of SPIE - The
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9. Böhme; R.; Zimmer; K.
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4th Pacific International
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23. Sato, T., Kurosaki, R., Narazaki, A., Kawaguchi, Y., Niino, H.
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2. Böhme;
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4. Niino H; Kawaguchi Y; Sato
T; et al.
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liquid for surface micro-structuring of silica glass
APPLIED SURFACE SCIENCE 252
(13): 4387-4391 APR 30 2006
5. Böhme R; Otto T;
Zimmer K
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investigations of solid/liquid interface during laser backside etching
APPLIED SURFACE SCIENCE 252
(13): 4392-4396 APR 30 2006
6. K. Zimmer; R. Böhme;
S. Pissadakis; L. Hartwig; G. Reisse B. Rauschenbach
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Applied Surface Science
Volume 253; Issue 5 ; 30 December 2006; Pages 2796-2800
7. Böhme; R.; Zimmer; K.; Rauschenbach; B.
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transparent materials: High quality surface patterning and figuring for
micro-optical applications
Proceedings of SPIE - The
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8. Zimmer; K.; Böhme; R.; Ruthe; D.; Rauschenbach; B.
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9. Böhme; R.; Zimmer; K.
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10. Zimmer; K.; Böhme; R.; Rauschenbach; B.
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13. Niino; H.; Kawaguchi; Y.; Sato; T.; Narazaki; A.; Kurosaki; R.
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Applied
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2007
14. Böhme; R.; Zimmer; K.
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art. no. 008; pp. 3060-3064 2007
15. Niino; H.; Kawaguchi; Y.; Sato; T.; Narazaki; A.; Gumpenberger; T.; Kurosaki; R.
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repetition rate of 40 kHz
Journal
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art. no. 115; pp. 539-542 2007
16. Kopitkovas; G.; Lippert; T.; Venturini; J.; David; C.; Wokaun; A.
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art. no. 113; pp. 526-532 2007
17. Tseng; A.A.
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204 (3); pp. 709-729 2007
18. Kopitkovas, G., Lippert, T., Murazawa, N., David, C., Wokaun, A., Gobrecht, J., Winfield, R.
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Applied
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2007
19. Kopitkovas, G., Deckert, V., Lippert, T., Raimondi, F., Schneider, C.W., Wokaun, A.
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Physical
Chemistry Chemical Physics 10 (22), pp. 3195-3202,
2008
20. Niino, H., Kawaguchi, Y., Sato, T., Narazaki, A., Kurosaki, R.
Surface
microstructures of silica glass by laser-induced backside wet etching
Proceedings
of SPIE - The International Society for Optical Engineering 6879, art. no.
21. Zimmer, K., Böhme, R.
Laser-induced
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Laser
Chemistry 2008, art. no. 170632, 2008
22. Zimmer, K., Ehrhardt, M., Böhme, R.
Simulation
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Journal of Applied
Physics 107 (3), art. no.
034908, 2010
23. Niino, H., Sato, T., Kawaguchi, Y., Narazaki, A., Kurosaki, R.
Progress
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4th Pacific International
Conference on Applications of Lasers and Optics, PICALO 2010
24. Lee, T., Jang, D., Ahn, D., Kim, D.
Effect
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27. Ehrhardt, M., Raciukaitis, G., Gecys, P., Zimmer, K.
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28. Cheng, J.-Y., Mousavi, M.Z., Wu, C.-Y., Tsai, H.-F.
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1. Hans-Jürgen Butt;
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2. Walid A. Daoud; John H.
Xin; Yi He Zhang and C.L. Mak
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3. De Souza, E.F., Torriani, C.L., Teschke, O.
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5. Kattamis, N.T., Purnick, P.E., Weiss, R., Arnold, C.B.
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7. Fardel, R., Feurer, P., Lippert, T., Nagel, M., Nüesch, F.A., Wokaun, A.
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10. Duocastella, M., Fernández-Pradas, J.M.,
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pp. 847-854, 2010
20. Genov, S., Thurow, I., Riester, D., Hirth, T., Borchers, K., Weber, A., Tovar, G.E.M.
Dry native protein
assays on substrates by non-contact Laser-Induced- Forward Transfer LIFT
process
Nanotechnology 2010:
Advanced Materials, CNTs, Particles, Films and Composites - Technical
Proceedings of the 2010 NSTI Nanotechnology Conference and Expo, NSTI-Nanotech
2010 1, pp. 643-646, 2010
21. Duocastella, M., Fernández-Pradas, J.M., Serra, J.L.M.P.
Thin Solid Films 518 (18), pp. 5321-5325, 2010
22. Kononenko, T.V., Nagovitsyn, I.A., Chudinova, G.K., Mihailescu, I.N.
Clean, cold, and
liquid-free laser transfer of biomaterials
Laser Physics 21 (4), pp. 823-829, 2011-08-04
23. Genov, S., Riester, D., Hirth, T., Tovar, G., Borchers, K., Weber, A.
Chemical
Engineering and Processing: Process Intensification 50 (5-6), pp. 558-564, 2011-08-04
24. Kaur, K.S., Feinaeugle, M., Banks, D.P., Ou, J.Y., Di Pietrantonio, F., Verona, E., Sones, C.L., Eason, R.W.
Laser-induced
forward transfer of focussed ion beam pre-machined donors
Applied Surface
Science 257 (15), pp.
6650-6653, 2011
25: Rodríguez-Dévora, J.I., Shi, Z.-D., Xu, T.
Direct assembling
methodologies for high-throughput bioscreening
Biotechnology
Journal 6 (12) , pp. 1454-1465,
2011
Smausz T.; Hopp B.; Huszar H.; Toth Z.; Kecskemeti G.
Pulsed laser deposition of
bioceramic thin films from human tooth (2004)
Applied Physics A:
Materials Science and Processing; 79 (4-6); pp. 1101-1103.
1. Nikale; V.M.; Suryavanshi; U.B.; Bhosale; C.H.
Effect of substrate
temperature on spray deposited CdIn2Se4 thin films
Materials Science and
Engineering B: Solid-State Materials for Advanced Technology 134 (1); pp. 94-98;
2006
Kecskemeti G., Kresz N., Smausz T., Hopp B., Nogradi A.
Pulsed laser deposition of pepsin thin
films (2005)
Applied
Surface Science, 247 (1-4), pp. 83-88.
1. György, E., Ṕrez Del Pino, A., Sauthier, G., Figueras, A.
Biomolecular
papain thin films grown by matrix assisted and conventional pulsed laser
deposition: A comparative study
Journal
of Applied Physics 106 (11), art. no.
114702, 2009
2. Genov, S., Thurow, I., Riester, D., Hirth, T., Borchers, K., Weber, A., Tovar, G.E.M.
Dry native protein
assays on substrates by non-contact Laser-Induced- Forward Transfer LIFT
process
Nanotechnology 2010:
Advanced Materials, CNTs, Particles, Films and Composites - Technical
Proceedings of the 2010 NSTI Nanotechnology Conference and Expo, NSTI-Nanotech
2010 1, pp. 643-646, 2010
3. Genov, S., Riester, D., Hirth, T., Tovar, G., Borchers, K., Weber, A.
Chemical
Engineering and Processing: Process Intensification 50 (5-6), pp. 558-564, 2011-08-04
Hopp B; Smausz T; Barna N;
Vass C; Antal Z; Kredics L; Chrisey D
Time-resolved study of
absorbing film assisted laser induced forward transfer of Trichoderma
longibrachiatum conidia
J. PHYS. D 38 (6): 833-837
MAR 21 2005
1. Colina M; Duocastella M;
Fernandez-Pradas JM; et al.
Laser-induced forward
transfer of liquids: Study of the droplet ejection process
JOURNAL OF APPLIED PHYSICS 99
(8): Art. No. 084909 APR 15 2006
2. Nagel M; Hany R; Lippert T;
et al.
MACROMOLECULAR CHEMISTRY AND
PHYSICS 208 (3): 277-286 FEB 5 2007
3. Horneffer, V., Linz, N., Vogel, A.
Principles
of laser-induced separation and transport of living cells
Journal
of Biomedical Optics 12 (5), art. no.
054016, 2007
4. Fardel, R., Feurer, P., Lippert, T., Nagel, M., Nüesch, F.A., Wokaun, A.
Laser
ablation of aryltriazene photopolymer films: Effects of polymer structure on
ablation properties
Applied
Surface Science 254 (4), pp. 1332-1337,
2007
5. Dinca, V., Farsari, M., Kafetzopoulos, D., Popescu, A., Dinescu, M., Fotakis, C.
Patterning
parameters for biomolecules microarrays constructed with nanosecond and
femtosecond UV lasers
Thin
Solid Films 516 (18), pp. 6504-6511,
2008-09-02
6. Nagel, M., Fardel, R., Feurer, P., Häberli, M., Nüesch, F.A., Lippert, T., Wokaun, A.
Aryltriazene
photopolymer thin films as sacrificial release layers for laser-assisted
forward transfer systems: Study of photoablative decomposition and transfer
behavior
Applied
Physics A: Materials Science and Processing
92 (4), pp. 781-789, 2008
7. Fardel, R., Nagel, M., Nüesch, F., Lippert, T., Wokaun, A.
Shadowgraphy
investigation of laser-induced forward transfer: Front side and back side
ablation of the triazene polymer sacrificial layer
Applied Surface Science 255 (10), pp. 5430-5434, 2009
8. Zimmer, K.
Analytical
solution of the laser-induced temperature distribution across internal material
interfaces
International Journal of
Heat and Mass Transfer 52 (1-2), pp.
497-503, 2009
9. Fardel, R., Nagel, M., Nüesch, F., Lippert, T., Wokaun, A.
Energy
balance in a laser-induced forward transfer process studied by
shadowgraphy
Journal of Physical
Chemistry C 113 (27), pp.
11628-11633, 2009
10. Mortara, L., Hughes, J., Ramsundar, P.S., Livesey, F., Probert, D.R.
Proposed
classification scheme for direct writing technologies
Rapid Prototyping Journal 15 (4), pp. 299-309, 2009
An
additive method to fabricate conductive lines and electronic components
directly by laser microcladding electronic materials
Proceedings of the
Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering
Science 224 (5), pp.
1087-1098, 2010
12. Shaw Stewart, J., Fardel, R., Nagel, M., Delaporte, P., Rapp, L., Cibert, C., Alloncle, A.-P., (...), Wokaun, A.
The
effect of laser pulse length upon laser-induced forward transfer using a triazene
polymer as a dynamic release layer
Journal of
Optoelectronics and Advanced Materials 12 (3), pp. 605-609, 2010
13. Fardel, R., Nagel, M., Nüesch, F., Lippert, T., Wokaun, A.
Laser-induced
forward transfer of organic LED building blocks studied by time-resolved
shadowgraphy
Journal of
Physical Chemistry C 114
(12), pp. 5617-5636, 2010
14. Chen, K.-T., Lin, Y.-H., Ho, J.-R., Cheng, J.-W.J., Liu, S.-H., Liao, J.-L., Yan, J.-Y.
Laser-induced
implantation of silver particles into poly(vinyl alcohol) films and its
application to electronic-circuit fabrication on encapsulated organic
electronics
Microelectronic
Engineering 87 (4), pp.
543-547, 2010
15. Kononenko, T.V., Alloncle, P., Konov, V.I., Sentis, M.
Shadowgraphic imaging
of laser transfer driven by metal film blistering
Applied Physics A:
Materials Science and Processing 102 (1), pp. 49-54, 2011
Hopp B.; Smausz T.; Kresz N.; Barna N.; Bor Z.; Kolozsvari L.; Chrisey D.B.; (...); Nogradi A. Survival and proliferative ability of various
living cell types after laser-induced forward transfer (2005) Tissue Engineering; 11 (11-12); pp. 1817-1823.
1.
Arnold; C.B.; Serra; P.; Piqué; A.
Laser
direct-write techniques for printing of complex materials;
MRS
Bulletin Volume 32; Issue 1; January 2007; Pages 23-31
2. Vogel; A.; Horneffer; V.; Lorenz; K.; Linz; N.; Hüttmann; G.; Gebert; A.
Principles of Laser Microdissection and Catapulting of
Histologic Specimens and Live Cells
Methods in Cell Biology 82; pp. 153-205 2007
3. Horneffer, V., Linz, N., Vogel, A.
Principles
of laser-induced separation and transport of living cells
Journal
of Biomedical Optics 12 (5), art. no.
054016, 2007
4.
Dinca, V., Ranella, A., Popescu, A., Dinescu, M., Farsari, M., Fotakis, C.
Parameters optimization for biological molecules
patterning using 248-nm ultrafast lasers
Applied Surface Science 254 (4), pp. 1164-1168, 2007
5.
Vogel, A., Lorenz, K., Horneffer, V., Hüttmann, G., Von Smolinski, D., Gebert, A.
Mechanisms of laser-induced dissection and transport
of histologic specimens
Biophysical Journal 93 (12), pp. 4481-4500, 2007
6.
Dinca, V., Kasotakis, E., Catherine, J., Mourka, A., Mitraki, A., Popescu, A., Dinescu, M., (...), Fotakis, C.
Development of peptide-based patterns by laser
transfer
Applied Surface Science 254 (4), pp. 1160-1163, 2007
7.
Dinca, V., Ranella, A., Farsari, M., Kafetzopoulos, D., Dinescu, M., Popescu, A., Fotakis, C.
Quantification of the activity of biomolecules in
microarrays obtained by direct laser transfer
Biomedical Microdevices 10 (5), pp. 719-725, 2008
8. Dinca, V., Farsari, M., Kafetzopoulos, D., Popescu, A., Dinescu, M., Fotakis, C.
Patterning
parameters for biomolecules microarrays constructed with nanosecond and
femtosecond UV lasers
Thin
Solid Films 516 (18), pp. 6504-6511,
2008-09-02
9. Nagel, M., Fardel, R., Feurer, P., Häberli, M., Nüesch, F.A., Lippert, T., Wokaun, A.
Aryltriazene
photopolymer thin films as sacrificial release layers for laser-assisted
forward transfer systems: Study of photoablative decomposition and transfer
behavior
Applied
Physics A: Materials Science and Processing
92 (4), pp. 781-789, 2008
10. Dinca, V., Kasotakis, E., Mourka, A., Ranella, A., Farsari, M., Mitraki, A., Fotakis, C.
Fabrication
of amyloid peptide micro-arrays using laser-induced forward transfer and
avidin-biotin mediated assembly
Physica
Status Solidi (C) Current Topics in Solid State Physics 5 (12), pp. 3576-3579, 2008
11. Duocastella, M., Fernández-Pradas, J.M.,
Serra, P., Morenza, J.L.
Jet
formation in the laser forward transfer of liquids
Applied
Physics A: Materials Science and Processing
93 (2), pp. 453-456, 2008
12. Serra, P., Duocastella, M., Fernández-Pradas, J.M.,
Morenza, J.L.
Liquids
microprinting through laser-induced forward transfer
Applied Surface Science 255 (10), pp. 5342-5345, 2009
13. Xu, F., Emre, A.E., Turali, E.S., Hasan, S.K., Moon, S., Nagatomi, J., Khademhosseini, A., Demirci, U.
Cell
proliferation in bioprinted cell-laden collagen droplets
Bioengineering,
Proceedings of the Northeast Conference,
art. no. 4967727, 2009
14. Ḿzel, C., Hallo, L., Souquet, A., Breil, J., H́bert, D., Guillemot, F.
Self-consistent
modeling of jet formation process in the nanosecond laser pulse regime
Physics of Plasmas 16 (12), art. no. 123112, 2009
15. Brown, M.S., Kattamis, N.T., Arnold, C.B.
Time-resolved
study of polyimide absorption layers for blister-actuated laser-induced forward
transfer
Journal of Applied
Physics 107 (8), art. no.
083103, 2010-07-09
16. Duocastella, M., Fernández-Pradas, J.M.,
Morenza, J.L., Zafra, D., Serra, P.
Novel
laser printing technique for miniaturized biosensors preparation
Sensors and
Actuators, B: Chemical 145
(1), pp. 596-600, 2010
17. Ringeisen, B.R., Lizewski, S.E., Fitzgerald, L.A., Biffinger, J.C., Knight, C.L., Crookes-Goodson, W.J., Wu, P.K.
Single
cell isolation of bacteria from microbial fuel cells and Potomac River Sediment
Electroanalysis 22 (7-8), pp. 875-882, 2010
18. Fitzgerald, L.A., Wu, P.K., Gurnon, J.R., Biffinger, J.C., Ringeisen, B.R., Van Etten, J.L.
Isolation
of the phycodnavirus PBCV-1 by biological laser printing
Journal of
Virological Methods 167
(2), pp. 223-225, 2010
19. Guillotin, B., Souquet, A., Catros, S., Duocastella, M., Pippenger, B., Bellance, S., Bareille, R., (...), Guillemot, F.
Laser assisted
bioprinting of engineered tissue with high cell density and microscale
organization
Biomaterials 31 (28), pp. 7250-7256, 2010
20. Dinca, V., Fardel, R., Shaw-Stewart, J., Di Pietrantonio, F., Cannatà, D., Benetti, M., Verona, E., (...), Lippert, T.
Laser-induced
forward transfer: An approach to single-step polymer microsensor fabrication
Sensor Letters 8 (3), pp. 436-440, 2010
21. Koch, L., Kuhn, S., Sorg, H., Gruene, M., Schlie, S., Gaebel, R., Polchow, B., (...), Chichkov, B.
Laser printing of
skin cells and human stem cells
Tissue Engineering
- Part C: Methods 16 (5),
pp. 847-854, 2010
22. Duocastella, M., Patrascioiu, A., Fernández-Pradas, J.M., Morenza, J.L., Serra, P.
Film-free laser
forward printing of transparent and weakly absorbing liquids
Optics Express 18 (21), pp. 21815-21825, 2010
23. Genov, S., Thurow, I., Riester, D., Hirth, T., Borchers, K., Weber, A., Tovar, G.E.M.
Dry native protein
assays on substrates by non-contact Laser-Induced- Forward Transfer LIFT
process
Nanotechnology 2010: Advanced
Materials, CNTs, Particles, Films and Composites - Technical Proceedings of the
2010 NSTI Nanotechnology Conference and Expo, NSTI-Nanotech 2010 1, pp. 643-646, 2010
24. Rapp, L., Alloncle, A.P., Diallo, A.K., Nénon, S., Videlot-Ackermann, C., Fages, F., Delaporte, P.
Pulsed-laser
printing process for organic thin film transistors fabrication
AIP Conference
Proceedings 1278, pp.
824-831, 2010
25. Duocastella, M., Fernández-Pradas, J.M., Morenza, J.L., Serra, P.
Droplet printing
through bubble contact in the laser forward transfer of liquids
Applied Surface
Science 257 (7), pp.
2825-2829, 2011-08-04
26. Gruene, M., Unger, C., Koch, L., Deiwick, A., Chichkov, B.
Dispensing pico to
nanolitre of a natural hydrogel by laser-assisted bioprinting
BioMedical
Engineering Online 10,
art. no. 19, 2011-08-04
27. Guillotin, B., Guillemot, F.
Cell patterning
technologies for organotypic tissue fabrication
Trends in
Biotechnology 29 (4), pp.
183-190, 2011-08-04
28. Patrascioiu, A., Duocastella, M., Fernández-Pradas, J.M., Morenza, J.L., Serra, P.
Liquids
microprinting through a novel film-free femtosecond laser based technique
Applied Surface
Science 257 (12), pp.
5190-5194, 2011-08-04
29. Duocastella, M., Patrascioiu, A., Dinca, V., Fernández-Pradas, J.M., Morenza, J.L., Serra, P.
Study of liquid
deposition during laser printing of liquids
Applied Surface
Science 257 (12), pp.
5255-5258, 2011-08-04
30. Catros, S., Guillotin, B., Bačáková, M., Fricain, J.-C., Guillemot, F.
Applied Surface
Science 257 (12), pp.
5142-5147, 2011-08-04
Laser-assisted
fabrication of highly viscous alginate microsphere
Journal of Applied
Physics 109 (8), art. no.
083107, 2011-08-04
32. Unger, C., Gruene, M., Koch, L., Koch, J., Chichkov, B.N.
Time-resolved
imaging of hydrogel printing via laser-induced forward transfer
Applied Physics A:
Materials Science and Processing 103 (2), pp. 271-277, 2011-08-04
33. Genov, S., Riester, D., Hirth, T., Tovar, G., Borchers, K., Weber, A.
Chemical
Engineering and Processing: Process Intensification 50 (5-6), pp. 558-564, 2011-08-04
34. Hodgkinson, T., Bayat, A.
Dermal
substitute-assisted healing: Enhancing stem cell therapy with novel biomaterial
design
Archives of
Dermatological Research
303 (5), pp. 301-315, 2011
35. Catros, S., Fricain, J.-C., Guillotin, B., Pippenger, B., Bareille, R., Remy, M., Lebraud, E., (...), Guillemot, F.
Biofabrication 3 (2) , art. no. 025001, 2011
36. Gruene, M., Pflaum, M., Hess, C., Diamantouros, S., Schlie, S., Deiwick, A., Koch, L., (...), Chichkov, B.
Tissue Engineering
- Part C: Methods 17 (10) ,
pp. 973-982, 2011
37. Guillemot, F., Guillotin, B., Fontaine, A., Ali, M., Catros, S., Kériquel, V., Fricain, J.-C., (...), Amédée-Vilamitjana, J.
Laser-assisted
bioprinting to deal with tissue complexity in regenerative medicine
MRS Bulletin 36 (12) , pp. 1015-1019, 2011
38. Rodríguez-Dévora, J.I., Shi, Z.-D., Xu, T.
Direct assembling
methodologies for high-throughput bioscreening
Biotechnology
Journal 6 (12) , pp.
1454-1465, 2011
Vass;
C.; Sebők; D.; Hopp; B.
Comparing study of sub-picosecond and
nanosecond wet etching of fused silica
Appl. Surf. Sci.
252; Issue 13; 30 April 2006; Pages 4768-4772
1. Böhme; R. Pissadakis; S.; Ehrhardt; M.; Ruthe; D. Zimmer; K
Ultra-short laser processing
of transparent material at the interface to liquid
Journal
of Physics D: Applied Physics Volume 39; Issue 7; 7 April 2006;
Pages 1398-1404
2. Zimmer K; Bohme R; Hirsch
D; et al.
Backside etching of fused
silica with UV laser pulses using mercury
JOURNAL OF PHYSICS D-APPLIED
PHYSICS 39 (21): 4651-4655 NOV 7 2006
Laser etching of periodic 1D-
and 2D submicron relief gratings on pre-structured fused silica surface
Proceedings of SPIE - The
International Society for Optical Engineering 6182; art. no. 61820T; 2006
4. Zimmer; K.; Böhme; R.; Ruthe; D.; Rauschenbach; B.
The
influence of laser-induced surface modifications on the backside etching
process
Applied
Surface Science 253 (15); pp. 6588-6594
2007
5. Niino; H.; Kawaguchi; Y.; Sato; T.; Narazaki; A.; Kurosaki; R.
Surface
microstructuring of silica glass by laser-induced backside wet etching with a
DPSS UV laser
Applied
Surface Science 253 (19); pp. 8287-8291
2007
6. Bohus; J.; Csákó; T.; Szörényi; T.; Szatmári; S.
Ablation
with femtosecond pulses: The effect of temporal contrast
Applied
Surface Science 253 (19); pp. 7779-7782
2007
7. Niino, H., Kawaguchi, Y., Sato, T., Narazaki, A., Kurosaki, R.
Surface
microstructures of silica glass by laser-induced backside wet etching
Proceedings
of SPIE - The International Society for Optical Engineering 6879, art. no.
8. Zimmer, K., Böhme, R.
Laser-induced
backside wet etching of transparent materials with organic and metallic
absorbers
Laser
Chemistry 2008, art. no. 170632, 2008
9. Lee, T., Jang, D., Ahn, D., Kim, D.
Effect
of liquid environment on laser-induced backside wet etching of fused
silica
Journal of Applied
Physics 107 (3), art. no.
033112, 2010
10. Niino, H., Sato, T., Kawaguchi, Y., Narazaki, A., Kurosaki, R.
Progress
in laser-induced backside wet etching
4th Pacific International
Conference on Applications of Lasers and Optics, PICALO 2010
11. Ehrhardt, M., Raciukaitis, G., Gecys, P., Zimmer, K.
Microstructuring
of fused silica by laser-induced backside wet etching using picosecond laser
pulses
Applied Surface
Science 256 (23), pp.
7222-7227, 2010
Doraiswamy;
A.; Narayan; R.J.; Lippert; T.; Urech; L.; Wokaun; A.; Nagel;
M.; Hopp; B.; (...); Chrisey; D.B.
Excimer laser forward transfer of
mammalian cells using a novel triazene absorbing layer
(2006) Applied Surface Science; 252 (13 SPEC. ISS.); pp. 4743-4747.
1.
Arnold; C.B.; Serra; P.; Piqué; A.
Laser
direct-write techniques for printing of complex materials;
MRS
Bulletin Volume 32; Issue 1; January 2007; Pages 23-31
2. Tsuboi, Y., Furuhata, Y., Kitamura, N.
A
sensor for adenosine triphosphate fabricated by laser-induced forward transfer
of luciferase onto a poly(dimethylsiloxane) microchip
Applied
Surface Science 253 (20), pp. 8422-8427,
2007
3. Kattamis, N.T., McDaniel, N.D., Bernhard, S., Arnold, C.B.
Laser
direct write printing of sensitive and robust light emitting organic
molecules
Applied Physics Letters 94 (10), art. no. 103306, 2009
4. Serra, P., Duocastella, M., Fernández-Pradas, J.M.,
Morenza, J.L.
Liquids
microprinting through laser-induced forward transfer
Applied Surface Science 255 (10), pp. 5342-5345, 2009
5. Narazaki, A., Sato, T., Kurosaki, R., Kawaguchi, Y., Niino, H.
Nano-
and microdot array formation by laser-induced dot transfer
Applied Surface Science 255 (24), pp. 9703-9706, 2009
6. Guillotin, B., Souquet, A., Catros, S., Duocastella, M., Pippenger, B., Bellance, S., Bareille, R., (...), Guillemot, F.
Laser assisted
bioprinting of engineered tissue with high cell density and microscale
organization
Biomaterials 31 (28), pp. 7250-7256, 2010
7. Koch, L., Kuhn, S., Sorg, H., Gruene, M., Schlie, S., Gaebel, R., Polchow, B., (...), Chichkov, B.
Laser printing of
skin cells and human stem cells
Tissue Engineering
- Part C: Methods 16 (5),
pp. 847-854, 2010
8. Duocastella, M., Patrascioiu, A., Fernández-Pradas, J.M., Morenza, J.L., Serra, P.
Film-free laser
forward printing of transparent and weakly absorbing liquids
Optics Express 18 (21), pp. 21815-21825, 2010
9. Rapp, L., Alloncle, A.P., Diallo, A.K., Nénon, S., Videlot-Ackermann, C., Fages, F., Delaporte, P.
Pulsed-laser
printing process for organic thin film transistors fabrication
AIP Conference
Proceedings 1278, pp.
824-831, 2010
10. Brown, M.S., Kattamis, N.T., Arnold, C.B.
Journal of Applied
Physics 107 (8), art. no.
083103, 2010
11. Torres, R.D., Johnson, S.L., Haglund Jr., R.F., Hwang, J., Burn, P.L., Holloway, P.H.
Mechanisms of
resonant infrared matrix-assisted pulsed laser evaporation
Critical Reviews
in Solid State and Materials Sciences 36 (1), pp. 16-45, 2011-08-04
12. Duocastella, M., Fernández-Pradas, J.M., Morenza, J.L., Serra, P.
Droplet printing
through bubble contact in the laser forward transfer of liquids
Applied Surface
Science 257 (7), pp.
2825-2829, 2011-08-04
13. Patrascioiu, A., Duocastella, M., Fernández-Pradas, J.M., Morenza, J.L., Serra, P.
Liquids
microprinting through a novel film-free femtosecond laser based technique
Applied Surface
Science 257 (12), pp.
5190-5194, 2011-08-04
Laser-assisted
fabrication of highly viscous alginate microsphere
Journal of Applied
Physics 109 (8), art. no.
083107, 2011
15: Rodríguez-Dévora, J.I., Shi, Z.-D., Xu, T.
Direct assembling
methodologies for high-throughput bioscreening
Biotechnology
Journal 6 (12) , pp.
1454-1465, 2011
Vass;
C.; Osvay; K.; Hopp; B.
Fabrication of 150 nm period grating in
fused silica by two-beam interferometric laser induced backside wet etching
method(2006)
Optics Express; 14 (18); pp. 8354-8359.
1. Pissadakis; S.; Böhme; R.; Zimmer; K.
Sub-micron
periodic structuring of sapphire by laser induced backside wet etching
technique
Optics
Express 15 (4); pp. 1428-1433 (2007)
2. Kopitkovas, G., Lippert, T., Murazawa, N., David, C., Wokaun, A., Gobrecht, J., Winfield, R.
Laser
processing of micro-optical components in quartz
Applied
Surface Science 254 (4), pp. 1073-1078,
2007
3. Kopitkovas, G., Deckert, V., Lippert, T., Raimondi, F., Schneider, C.W., Wokaun, A.
Chemical
and structural changes of quartz surfaces due to structuring by laser-induced
backside wet etching
Physical
Chemistry Chemical Physics 10 (22), pp.
3195-3202, 2008
4. Niino, H., Kawaguchi, Y., Sato, T., Narazaki, A., Kurosaki, R.
Surface
microstructures of silica glass by laser-induced backside wet etching
Proceedings
of SPIE - The International Society for Optical Engineering 6879, art. no.
5. Zimmer, K., Böhme, R.
Laser-induced
backside wet etching of transparent materials with organic and metallic
absorbers
Laser
Chemistry 2008, art. no. 170632, 2008
6. Dubov, M., Nasyrov, R.K., Nikogosyan, D.N., Poleshchuk, A.G., Mezentsev, V., Bennion, I.
Micro-holographic
methods for sub-micrometer grating fabrication in fused silica with UV
femtosecond laser
Proceedings
of SPIE - The International Society for Optical Engineering 7100, art. no. 71000T, 2008
7. Hijazi, A., Khater, A.
Boëder PDF Brownian simulations for macromolecular
rod-like particles near uneven solid surfaces
European
Polymer Journal 44 (11), pp. 3409-3416,
2008
8. Asefa, T., Shi, Y.-L.
Corrugated
and nanoporous silica microspheres: Synthesis by controlled etching, and
improving their chemical adsorption and application in biosensing
Journal
of Materials Chemistry 18 (46), pp.
5604-5614, 2008
9. Zimmer, K., Ehrhardt, M., Böhme, R.
Simulation
of laser-induced backside wet etching of fused silica with hydrocarbon liquids
Journal of Applied
Physics 107 (3), art. no.
034908, 2010
10. Niino, H., Sato, T., Kawaguchi, Y., Narazaki, A., Kurosaki, R.
Progress
in laser-induced backside wet etching
4th Pacific International
Conference on Applications of Lasers and Optics, PICALO 2010
11. Bäuerle, D.
Laser chemical
processing: An overview to the 30th anniversary
Applied Physics A:
Materials Science and Processing 101 (2), pp. 447-459, 2010
Kecskemeti G., Smausz T., Kresz N., Toth Zs., Hopp B., Chrisey D., Berkesi O. Pulsed laser
deposition of polyhydroxybutyrate biodegradable polymer thin films using ArF
excimer laser (2006) Applied Surface Science, 253 (3), pp. 1185-1189.
1. Asran, A.S., Razghandi, K., Aggarwal, N., Michler, G.H., Groth, T.
Biomacromolecules 11 (12), pp. 3413-3421, 2010
2. Güven, E., Güven, E.O., Bayram, C., Kazak, O.N., Denkbaş, E.B.
PDA Journal of
Pharmaceutical Science and Technology 64 (4), pp. 316-326, 2010
3. Palla-Papavlu, A., Dinca, V., Ion, V., Moldovan, A., Mitu, B., Luculescu, C., Dinescu, M.
Characterization
of polymer thin films obtained by pulsed laser deposition
Applied Surface
Science 257 (12), pp.
5303-5307, 2011-08-04
4. Hanafy, T.A.
New techniques for
IR laser sensors
Saudi International
Electronics, Communications and Photonics Conference 2011, SIECPC 2011 , art. no. 5876977, 2011-08-04
5. French, R.H., Rodríguez-Parada, J.M., Yang, M.K., Derryberry, R.A., Pfeiffenberger, N.T.
Optical properties
of polymeric materials for concentrator photovoltaic systems
Solar Energy
Materials and Solar Cells
95 (8), pp. 2077-2086, 2011
Jegenyes,
N., Toth, Z., Hopp, B., Klebniczki, J., Bor,
Z., Fotakis, C.
Femtosecond pulsed laser deposition of
diamond-like carbon films: The effect of double laser pulses
(2006) Applied Surface Science, 252 (13 SPEC. ISS.), pp. 4667-4671.
Target-plane
deposition of diamond-like carbon in pulsed laser ablation of graphite
Applied
Surface Science 253 (24), pp. 9521-9524,
2007
2. Guillermin, M., Liebig, C., Garrelie, F., Stoian, R., Loir, A.-S., Audouard, E.
Adaptive
control of femtosecond laser ablation plasma emission
Applied Surface Science 255 (10), pp. 5163-5166, 2009
3. Jiang, L., Li, L., Wang, S., Tsai, H.-L.
Microscopic
energy transport through photon-electron-phonon interactions during ultrashort
laser ablation of wide bandgap materials. Part I: Photon absorption
Zhongguo Jiguang/Chinese
Journal of Lasers 36 (4), pp.
778-789, 2009
4. Honglertkongsakul, K., May, P.W., Paosawatyanyong, B.
Electrical and
optical properties of diamond-like carbon films deposited by pulsed laser
ablation
Diamond and
Related Materials 19
(7-9), pp. 999-1002, 2010
5. Guillermin, M., Colombier, J.P., Valette, S., Audouard, E., Garrelie, F., Stoian, R.
Physical Review B
- Condensed Matter and Materials Physics 82 (3), art. no. 035430, 2010
Smausz,
T., Hopp, B., Kecskeméti, G., Bor, Z.
Study on metal microparticle content of
the material transferred with Absorbing Film Assisted Laser Induced Forward Transfer
when using silver absorbing layer
(2006) Applied Surface Science, 252 (13 SPEC. ISS.), pp. 4738-4742.
1. Fardel, R., Feurer, P., Lippert, T., Nagel, M., Nüesch, F.A., Wokaun, A.
Laser
ablation of aryltriazene photopolymer films: Effects of polymer structure on
ablation properties
Applied
Surface Science 254 (4), pp. 1332-1337,
2007
2. Nagel, M., Fardel, R., Feurer, P., Häberli, M., Nüesch, F.A., Lippert, T., Wokaun, A.
Aryltriazene
photopolymer thin films as sacrificial release layers for laser-assisted
forward transfer systems: Study of photoablative decomposition and transfer
behavior
Applied
Physics A: Materials Science and Processing
92 (4), pp. 781-789, 2008
3. Banks, D.P., Kaur, K., Eason, R.W.
Influence
of optical standing waves on the femtosecond laser-induced forward transfer of
transparent thin films
Applied Optics 48 (11), pp. 2058-2066, 2009
4. Banks, D.P., Kaur, K.S., Eason, R.W.
Etching
and forward transfer of fused silica in solid-phase by femtosecond
laser-induced solid etching (LISE)
Applied Surface Science 255 (20), pp. 8343-8351, 2009
5. Ḿzel, C., Hallo, L., Souquet, A., Breil, J., H́bert, D., Guillemot, F.
Self-consistent
modeling of jet formation process in the nanosecond laser pulse regime
Physics of Plasmas 16 (12), art. no. 123112, 2009
6. Stratakis, E., Ranella, A., Farsari, M., Fotakis, C.
Laser-based
micro/nanoengineering for biological applications
Progress in Quantum
Electronics 33 (5) , pp.
127-163, 2009
7. Fardel, R., Nagel, M., Nüesch, F., Lippert, T., Wokaun, A.
Laser-induced
forward transfer of organic LED building blocks studied by time-resolved
shadowgraphy
Journal of
Physical Chemistry C 114
(12), pp. 5617-5636, 2010
8. Brown, M.S., Kattamis, N.T., Arnold, C.B.
Time-resolved
study of polyimide absorption layers for blister-actuated laser-induced forward
transfer
Journal of Applied
Physics 107 (8), art. no.
083103, 2010-07-09
9. Sanz, M., Walczak, M., Oujja, M., Domingo, C., Klini, A., Papadopoulou, E.L., Fotakis, C., Castillejo, M.
Femtosecond laser
deposition of TiO2 by laser induced forward transfer
Thin Solid Films 518 (19), pp. 5525-5529, 2010
10. Schiele, N.R., Corr, D.T., Huang, Y., Raof, N.A., Xie, Y., Chrisey, D.B.
Laser-based
direct-write techniques for cell printing
Biofabrication 2 (3), art. no. 032001, 2010
11. Kaur, K.S., Feinaeugle, M., Banks, D.P., Ou, J.Y., Di Pietrantonio, F., Verona, E., Sones, C.L., Eason, R.W
Laser-induced
forward transfer of pre-machined donor films
2011
Conference on Lasers and Electro-Optics: Laser Science to Photonic
Applications, CLEO 2011 , art. no.
5951014, 2011
12. Iwai, K., Okoshi, M., Nojiri, H., Inoue, N.
Japanese Journal
of Applied Physics 50 (12) ,
art. no. 122702, 2011
Vass,
C., Osvay, K., Hopp, B., Bor, Z.
104 nm period grating fabrication in
fused silica by immersion two-beam interferometric laser induced backside wet
etching technique
(2007) Applied Physics A: Materials
Science and Processing, 87 (4), pp.
611-613.
1. Kopitkovas, G., Lippert, T., Murazawa, N., David, C., Wokaun, A., Gobrecht, J., Winfield, R.
Laser
processing of micro-optical components in quartz
Applied
Surface Science 254 (4), pp. 1073-1078,
2007
2. Kopitkovas, G., Deckert, V., Lippert, T., Raimondi, F., Schneider, C.W., Wokaun, A.
Chemical
and structural changes of quartz surfaces due to structuring by laser-induced
backside wet etching
Physical
Chemistry Chemical Physics 10 (22), pp.
3195-3202, 2008
3. Niino, H., Kawaguchi, Y., Sato, T., Narazaki, A., Kurosaki, R.
Surface
microstructures of silica glass by laser-induced backside wet etching
Proceedings
of SPIE - The International Society for Optical Engineering 6879, art. no.
4. Zimmer, K., Böhme, R.
Laser-induced
backside wet etching of transparent materials with organic and metallic
absorbers
Laser
Chemistry 2008, art. no. 170632, 2008
5. Zimmer, K., Ehrhardt, M., Böhme, R.
Simulation
of laser-induced backside wet etching of fused silica with hydrocarbon liquids
Journal of Applied
Physics 107 (3), art. no.
034908, 2010
6. Niino, H., Sato, T., Kawaguchi, Y., Narazaki, A., Kurosaki, R.
Progress
in laser-induced backside wet etching
4th Pacific International
Conference on Applications of Lasers and Optics, PICALO 2010
7. Ahsan, M.S., Kim, Y.G., Lee, M.S.
Formation
mechanism of nanostructures in soda-lime glass using femtosecond laser
Journal of
Non-Crystalline Solids 357 (3)
, pp. 851-857, 2011
Photo-induced mass
transfer in chalcogenides
OP
Conference Series: Materials Science and Engineering 23 (1) , art. no. 012007, 2011
Smajda R., Kukovecz A., Hopp B., Mohl M., Konya Z., Kiricsi I.
Morphology and N2 permeability of
multi-wall carbon nanotube-teflon membranes
(2007) Journal of Nanoscience and Nanotechnology, 7 (4-5), pp. 1604-1610.
1. Liu, Q., Ren, W., Liu, B., Chen, Z.-G., Li, F., Cong, H., Cheng, H.-M.
Synthesis,
purification and opening of short cup-stacked carbon nanotubes
Journal of Nanoscience and
Nanotechnology 9 (8), pp. 4554-4560,
2009
2. Park, E.J., Hong, S., Park, D.W., Shim, S.E.
Preparation
of conductive PTFE nanocomposite containing multiwalled carbon nanotube via
latex heterocoagulation approach
Colloid and
Polymer Science 288 (1),
pp. 47-53, 2010
Kresz N., Smausz T., Hopp B.
The dependence
of the size distribution of the pulsed laser deposited micron sized particles
from the laser fluence and its influence to the thickness of the deposited
layer
(2007) Applied Surface Science, 253 (19), pp. 8160-8164.
1. Siew, W.-O., Lee, W.-K., Wong, H.-Y., Yong, T.-K., Yap, S.-S., Tou, T.-Y.
Investigation of
droplet formation in pulsed Nd:YAG laser deposition of metals and silicon
Applied Physics A:
Materials Science and Processing 101 (4), pp. 627-632, 2010
2. Siew, W.O., Yapl, S.S., Yong, T.K., Nee, C.H., Tou, T.Y.
Effects of phase
explosion in pulsed laser deposition of nickel thin film and sub-micron
droplets
Applied Surface
Science 257 (7), pp.
2775-2778, 2011-08-04
Vass,
Cs., Osvay, K., Csete, M., Hopp, B.
Fabrication of 550 nm gratings in fused
silica by laser induced backside wet etching technique
(2007) Applied Surface Science, 253 (19), pp. 8059-8063.
1. Niino, H., Kawaguchi, Y., Sato, T., Narazaki, A., Kurosaki, R.
Surface
microstructures of silica glass by laser-induced backside wet etching
Proceedings
of SPIE - The International Society for Optical Engineering 6879, art. no.
2. Zhang, H., Zhou, Y., Zhou,
L., Chen, L.-S.
Fabrication
of micro-grating structures by nanosecond laser ablation of chrome film on
glass substrate
Guangzi Xuebao/Acta
Photonica Sinica 38 (2), pp. 241-244,
2009
3. Zhang, H., Fang, Z.-B., Wu, Z.-H., Zhou, Y., Chen, L.-S.
Fabricating
micro-grating structures on nickel using interference laser
Guangzi
Xuebao/Acta Photonica Sinica
38 (6), pp. 1525-1529, 2009
4. Lee, T., Jang, D., Ahn, D., Kim, D.
Effect
of liquid environment on laser-induced backside wet etching of fused silica
Journal of Applied
Physics 107 (3), art. no.
033112, 2010
5. Niino, H., Sato, T., Kawaguchi, Y., Narazaki, A., Kurosaki, R.
Progress
in laser-induced backside wet etching
4th Pacific International
Conference on Applications of Lasers and Optics, PICALO 2010
6. Wlodarczyk, K.L., Mendez, E., Baker, H.J., McBride, R., Hall, D.R.
Laser smoothing of
binary gratings and multilevel etched structures in fused silica
Applied Optics 49 (11), pp. 1997-2005, 2010
Smausz T., Csizmadia T., Kresz N., Vass Cs., Marton Zs., Hopp B.
Influence on the laser induced backside
dry etching of thickness and material of the absorber, laser spot size and
multipulse irradiation
(2007) Applied
Surface Science, 254 (4), pp. 1091-1095.
1. Zimmer, K., Böhme, R.
Laser-induced
backside wet etching of transparent materials with organic and metallic
absorbers
Laser
Chemistry 2008, art. no. 170632, 2008
2. Banks, D.P., Kaur, K.S., Eason, R.W.
Etching
and forward transfer of fused silica in solid-phase by femtosecond
laser-induced solid etching (LISE)
Applied Surface Science 255 (20), pp. 8343-8351, 2009
3. Jahn, M., Richter, J., Weichenhain-Schriever, R., Meinertz, J., Ihlemann, J.
Ablation of
silicon suboxide thin layers
Applied Physics A:
Materials Science and Processing 101 (3), pp. 533-538, 2010
4. He, C., Liu, F., Yuan, J., Chen, J.
Laser induced
backside etching of solar glass by 1064nm fiber laser irradiation
30th
International Congress on Applications of Lasers and Electro-Optics, ICALEO
2011 , pp. 851-855, 2011
Hopp,
B., Vass, Cs., Smausz, T.
Laser induced backside dry etching of
transparent materials
(2007) Applied Surface Science, 253 (19), pp. 7922-7925.
1. Ihlemann, J.
Micro
patterning of fused silica by laser ablation mediated by solid coating
absorption
Applied
Physics A: Materials Science and Processing
93 (1), pp. 65-68, 2008
2. Banks, D.P., Kaur, K.S., Eason, R.W.
Etching
and forward transfer of fused silica in solid-phase by femtosecond
laser-induced solid etching (LISE)
Applied Surface Science 255 (20), pp. 8343-8351, 2009
3. Zimmer, K., Böhme, R., Ehrhardt, M., Rauschenbach, B.
Mechanism of
backside etching of transparent materials with nanosecond UV-lasers
Applied Physics A:
Materials Science and Processing 101 (2), pp. 405-410, 2010
4. He, C., Liu, F., Yuan, J., Chen, J.
Laser induced
backside etching of solar glass by 1064nm fiber laser irradiation
30th
International Congress on Applications of Lasers and Electro-Optics, ICALEO
2011 , pp. 851-855, 2011
Hopp,
B., Vass, Cs., Smausz, T., Bor, Zs.
Production of submicrometre fused silica
gratings using laser-induced backside dry etching technique
(2006) Journal of Physics D: Applied
Physics, 39 (22), art. no.
015, pp. 4843-4847.
1. Böhme, R., Zimmer, K.
The
reduction of the threshold fluence at laser-induced backside wet etching due to
a liquid-mediated photochemical mechanism
Journal of Physics D:
Applied Physics 40 (10), art. no.
008, pp. 3060-3064, 2007
2. Ihlemann, J.
Micro
patterning of fused silica by laser ablation mediated by solid coating
absorption
Applied
Physics A: Materials Science and Processing
93 (1), pp. 65-68, 2008
3. Banks, D.P., Kaur, K.S., Eason, R.W.
Etching
and forward transfer of fused silica in solid-phase by femtosecond
laser-induced solid etching (LISE)
Applied Surface Science 255 (20), pp. 8343-8351, 2009
Hopp,
B., Smausz, T., Bereznai, M.
Processing of transparent materials
using visible nanosecond laser pulses
(2007) Applied Physics A: Materials
Science and Processing, 87 (1), pp.
77-79.
1. Huang, Z.Q., Hong, M.H., Do, T.B.M., Lin, Q.Y.
Laser
etching of glass substrates by 1064 nm laser irradiation
Applied
Physics A: Materials Science and Processing
93 (1), pp. 159-163, 2008
2. Krstulović, N., Milošević, S.
Drilling
enhancement by nanosecond-nanosecond collinear dual-pulse laser ablation of
titanium in vacuum
Applied Surface
Science 256 (13), pp.
4142-4148, 2010
3. Salgado-Remacha, F.J., Sanchez-Brea, L.M., Bernabeu, E.
Micromachining of
diffractive optical elements embedded in bulk fused silica by nanosecond pulses
Journal of
Lightwave Technology 29
(6), art. no. 5682363, pp. 850-855, 2011
Hopp, B., Smausz,
T., Kecskeméti, G., Klini, A., Bor, Zs.
Femtosecond
pulsed laser deposition of biological and biocompatible thin layers
(2007) Applied
Surface Science, 253 (19), pp. 7806-7809.
1. Bäuerle, D.
Laser chemical
processing: An overview to the 30th anniversary
Applied Physics A:
Materials Science and Processing 101 (2), pp. 447-459, 2010
Hopp B., Smausz T., Papdi B., Bor Z., Szabo A., Kolozsvari L., Fotakis C., Nogradi A.
Laser-based techniques for living cell
pattern formation
(2008) Applied
Physics A: Materials Science and Processing, 93 (1), pp. 45-49.
1. Bünsow, J., Johannsmann, D.
Patterned
hydrogel layers produced by electrochemically triggered polymerization
Macromolecular Rapid
Communications 30 (9-10), pp.
858-863, 2009
2. Cheng, Q., Li, S., Komvopoulos, K.
Plasma-assisted
surface chemical patterning for single-cell culture
Biomaterials 30 (25), pp. 4203-4210, 2009
3. Wu, J., Shao, J., Zheng, Y., Jin, Q., Zhao, J.
Patterning
different cells based on microfluidics and self-assembled monolayers
Shengwu Gongcheng
Xuebao/Chinese Journal of Biotechnology 25 (8), pp. 1234-1239, 2009
4. Bäuerle, D.
Laser chemical
processing: An overview to the 30th anniversary
Applied Physics A:
Materials Science and Processing 101 (2), pp. 447-459, 2010
Vass C., Osvay K., Veso T., Hopp B., Bor Z. Submicrometer grating fabrication in fused
silica by interferometric laser-induced backside wet etching technique
(2008) Applied Physics A: Materials Science and Processing, 93 (1), pp. 69-73.
1. Lee, T., Jang, D., Ahn, D., Kim, D.
Effect
of liquid environment on laser-induced backside wet etching of fused
silica
Journal of Applied
Physics 107 (3), art. no.
033112, 2010
2. Sato, T., Kurosaki, R., Narazaki, A., Kawaguchi, Y., Niino, H.
Flexible 3D deep
microstructures of silica glass by laser-induced backside wet etching
Applied Physics A:
Materials Science and Processing 101 (2), pp. 319-323, 2010
3. Cheng, J.-Y., Mousavi, M.Z., Wu, C.-Y., Tsai, H.-F.
Journal of
Micromechanics and Microengineering 21 (7), art. no. 075019, 2011
Hopp B., Smausz T., Csizmadia T., Budai J., Oszko A., Szabo G. Laser-induced backside dry etching:
Wavelength dependence (2008) Journal of Physics D: Applied
Physics, 41 (17), art. no. 175501
Experimental
study on infrared nanosecond laser-induced backside ablation of sapphire
Journal of
Manufacturing Processes 12
(1), pp. 57-61, 2010
2. Jahn, M., Richter, J., Weichenhain-Schriever, R., Meinertz, J., Ihlemann, J.
Ablation of
silicon suboxide thin layers
Applied Physics A:
Materials Science and Processing 101 (3), pp. 533-538, 2010
Bohme R., Vass C., Hopp B., Zimmer K.
Sub-wavelength
ripples in fused silica after irradiation of the solid/liquid interface with
ultrashort laser pulses
(2008) Nanotechnology, 19 (49), art. no. 495301
1. Liu, H., Chen, F., Wang, X., Yang, Q., Bian, H., Si, J., Hou, X.
Influence of
liquid environments on femtosecond laser ablation of silicon
Thin Solid Films 518 (18), pp. 5188-5194, 2010
2. Cheng, J.-Y., Mousavi, M.Z., Wu, C.-Y., Tsai, H.-F.
Journal of Micromechanics
and Microengineering 21
(7), art. no. 075019, 2011
Smausz T., Megyeri G., Kekesi R., Vass C., Gyorgy E., Sima F., Mihailescu I.N., Hopp B.
(2009) Thin Solid Films,
517 (15) , pp. 4299-4302.
Applied Physics A:
Materials Science and Processing
105 (3) , pp. 565-582, 2011
2. Jelínek, M., Remsa, J., Kocourek, T., Kubešová, B., Schůrek, J., Myslík, V.
MAPLE activities
and applications in gas sensors
Applied Physics A:
Materials Science and Processing
105 (3) , pp. 643-649, 2011
3. Bloisi, F., Pezzella, A., Barra, M., Alfè, M., Chiarella, F., Cassinese, A., Vicari, L.
Effect of
substrate temperature on MAPLE deposition of synthetic eumelanin films
Applied Physics A:
Materials Science and Processing
105 (3) , pp. 619-627, 2011
4. Matei, A., Schou, J., Constantinescu, C., Kingshott, P., Dinescu, M.
Applied Physics A:
Materials Science and Processing
105 (3) , pp. 629-633, 2011
5. Riggs, B.C., Dias, A.D., Schiele, N.R., Cristescu, R., Huang, Y., Corr, D.T., Chrisey, D.B.
Matrix-assisted
pulsed laser methods for biofabrication
MRS Bulletin 36 (12) , pp. 1043-1050, 2011
György,
E., Sima, F., Mihailescu, I.N., Smausz, T., Megyeri,
G., Kékesi, R., Hopp, B., (...), Petrescu, S.M.
Immobilization of urease by laser
techniques: Synthesis and application to urea biosensors
(2009) Journal
of Biomedical Materials Research - Part A, 89 (1), pp.
186-191.
1. Xie, T., Wang, A., Huang, L., Li, H., Chen, Z., Wang, Q., Yin, X.
Recent
advance in the support and technology used in enzyme immobilization
African Journal of
Biotechnology 8 (19), pp. 4724-4733,
2009
Smausz,
T., Zölei, D., Hopp, B.
Real correlation time measurement in
laser speckle contrast analysis using wide exposure time range images
(2009) Applied
Optics, 48 (8), pp. 1425-1429.
1. Zakharov, P., Völker, A.C., Wyss, M.T., Haiss, F., Calcinaghi, N., Zunzunegui, C., Buck, A., (...), Weber, B.
Dynamic
laser speckle imaging of cerebral blood flow
Optics Express 17 (16), pp. 13904-13917, 2009
2. Thompson, O.B., Hirst, E.R., Andrews, M.K.
Is there a
difference between laser speckle and laser Doppler in depth sensitivity?
Progress in Biomedical
Optics and Imaging - Proceedings of SPIE
7898, art. no. 78980E, 2011
Smausz, T., Zalatnai,
Z., Papdi, B., Csákó, T., Bor, Zs., Hopp, B.
Time-resolved
transmission study of fused silica during laser-induced backside dry etching
(2009) Applied Surface Science, 255 (10), pp.
5405-5408.
doi: 10.1016/j.apsusc.2008.07.174
1. Martan, J., Semmar, N., Cibulka, O.
Proceedings of
SPIE - The International Society for Optical Engineering 8077 , art. no. 80770D, 2011
Zimmer,
K., Böhme, R., Vass, C., Hopp, B.
Time-resolved
measurements during backside dry etching of fused silica
(2009) Applied Surface Science, 255 (24), pp.
9617-9621. doi: 10.1016/j.apsusc.2009.04.077
1. He, C., Liu, F., Yuan, J., Chen, J.
Laser induced
backside etching of solar glass by 1064nm fiber laser irradiation
30th
International Congress on Applications of Lasers and Electro-Optics, ICALEO
2011 , pp. 851-855, 2011
Hopp, B., Smausz,
T., Vass, C., Szabó, G., Böhme, R., Hirsch,
D., Zimmer, K.
Laser-induced
backside dry and wet etching of transparent materials using solid and molten
tin as absorbers
(2009) Applied Physics A: Materials Science and Processing, 94 (4), pp.
899-904.
doi: 10.1007/s00339-009-5078-5
1. He, C., Liu, F., Yuan, J., Chen, J.
Laser induced
backside etching of solar glass by 1064nm fiber laser irradiation
30th
International Congress on Applications of Lasers and Electro-Optics, ICALEO
2011 , pp. 851-855, 2011
Vass, C., Budai,
J., Schay, Z., Hopp, B.
Interpretation
and modeling of laser-induced backside wet etching procedure
(2010) Journal of Laser Micro Nanoengineering, 5 (1), pp.
43-47.
http://www.jlps.gr.jp/jlmn/upload/4e5132b0a831d6ecb066551a34e6e59e.pdf
doi: 10.2961/jlmn.2010.01.0010
1. Cheng, J.-Y., Mousavi, M.Z., Wu, C.-Y., Tsai, H.-F.
Journal of
Micromechanics and Microengineering 21 (7), art. no. 075019, 2011
Gyorgy E., Sima F., Mihailescu I.N., Smausz T., Hopp B., Predoi D., Sima L.E., Petrescu S.M.
Biomolecular urease
thin films grown by laser techniques for blood diagnostic applications
(2010) Materials Science and Engineering C, 30 (4), pp. 537-541.
1. Lakard, B., Magnin, D., Deschaume, O., Vanlancker, G., Glinel, K., Demoustier-Champagne, S., Nysten, B., (...), Yunus, S.
Biosensors and
Bioelectronics 26 (10),
pp. 4139-4145, 2011
2012. január 20. 613
független hivatkozás
Szakkönyvekben:
Paolo Samor: Scanning probe microscopies
beyond imaging: manipulation of molecules and nanostructures, Wiley-VCH Verlag
GmbH & Co. KGaA, Weinheim, 2006
- B. Hopp, N. Kresz, J. Kokavecz, T. Smausz, H.
Schieferdecker, A. Döring, O. Marti, Z. Bor: "Adhesive and
morphological characteristics of surface chemically modified
polytetrafluoroethylene films", Appl. Surf. Sci. 221 (1-4): 437-443
JAN 15 2004
- B. Hopp, J. Kokavecz, T. Smausz, N. Kresz, S.
Hild, O. Marti, Z. Bor: "Incubation investigation of ArF excimer
laser irradiated poly(methyl-methacrylate) using pulsed force mode atomic
force microscopy", J. Appl. Phys. 96, 5548-5551, 2004
- N. Kresz , J. Kokavecz , T. Smausz , B. Hopp , M.
Csete , S. Hild and O. Marti: „Investigation of pulsed laser
deposited crystalline PTFE thin layer with pulsed force mode AFM”,
Thin Solid Films, Volumes 453-454, Pages 239-244 April 2004
Bopaya Bidanda,Paulo Bártolo:
Virtual prototyping & bio manufacturing in medical applications, Springer
Science+Business Media, LLC 2008
- B. Hopp, T. Smausz, N. Kresz, N. Barna, Zs. Bor,
L. Kolozsvári, D.B. Chrisey, A. Szabó and A.
Nógrádi: „Survival and proliferation ability of
various living cell types after laser-induced forward transfer”,
Tissue Engineering vol. 11, November 11/12 1817-1823, 2005
Thomas K. Lippert, S. Georgiou: Polymers and light,
Springer-Verlag Berlin Heidelberg, 2004
·
B. Hopp, Zs. Tóth, K. Gál, Á. Mechler, Zs. Bor, S.
D. Moustaizis, S. Georgiou and C. Fotakis: „Time-resolved investigation
of transient surface reflection changes of subpicosecond excimer laser ablated
liquids” Appl. Phys. A 69, S191-194, 1999
Eduard Arzt,Aránzazu del Campo:
Generating Micro- and Nanopatterns on Polymeric Materials, Wiley-VCH Verlag
GmbH & Co. KGaA, Weinheim, 2011
- B. Hopp, T. Smausz, B. Papdi, Z. Bor, A.
Szabó, L. Kolozsvári, C. Fotakis, A. Nógrádi:
„Laser-based techniques for living cell pattern formation” Appl Phys A, 2008, 93: 45–49
- Doraiswamy, R.J. Narayan, T. Lippert, L. Urech,
A. Wokaun, M. Nagel, B. Hopp, M. Dinescu, R. Modi, R.C.Y. Auyeung and D.B.
Chrisey Excimer laser forward transfer of mammalian cells using a novel
triazene absorbing layer Applied Surface Science, Volume 252, Issue
13, 30 April 2006, Pages 4743-4747
G. Julius Vancso, Holger Schönherr: Scanning
Force Microscopy of Polymers, Springer
- N. Kresz , J. Kokavecz , T. Smausz , B. Hopp , M.
Csete , S. Hild and O. Marti: „Investigation of pulsed laser
deposited crystalline PTFE thin layer with pulsed force mode AFM”,
Thin Solid Films, Volumes 453-454, Pages 239-244 April 2004
W. W. Duley: UV lasers: effects and applications in
materials science, Cambridge University Press 1996
·
Zs. Bor, B. Hopp, B. Rácz, G. Szabó, Zs. Márton,
I. Ratkay, J. Mohay, I. Süveges, Á. Füst: "Physical
problems of excimer laser cornea ablation". Optical Engineering vol. 32,
October, 2481-2486, 1993
Roger Narayan,Thomas Boland,Yuan-Shin
Lee: Printed Biomaterials: Novel Processing and Modeling Techniques for
Medicine and Surgery, Springer Science+Business Media, LLC 2010
- B. Hopp, T. Smausz, N. Kresz, N. Barna, Zs. Bor,
L. Kolozsvári, D.B. Chrisey, A. Szabó and A.
Nógrádi: „Survival and proliferation ability of
various living cell types after laser-induced forward transfer”,
Tissue Engineering vol. 11, November 11/12 1817-1823, 2005
D. Bryce-Smith,A Gilbert: Photochemistry, The Royal
Society of Chemistry, 1994
·
P. Heszler, Zs. Bor, B. Hopp, E. Homolya: "Accumulation
(incubation) process of PET upon 337.1 nm radiation". Spectrochimica Acta,
48A, No. 1, 41-44, 1992
Helen K. Wu,Vance Thompson: Refractive Surgery, Thieme
New York, 1999
·
Zs. Bor, B. Hopp, B. Rácz, G. Szabó, I. Ratkay, I.
Süveges, Á. Füst, J. Mohay: "Plume emission, shock wave
and surface wave formation during excimer laser ablation of the cornea". Refractive
& Corneal Surgery vol. 9, March/April, 111-115, 1993
Arvi Kruusing: Handbook of liquids-assisted laser
processing, Elsevier Ltd. 2008
·
Z. Tóth, B. Hopp, T. Smausz, Z. Kántor, F. Ignácz,
T. Szörényi, Zs. Bor: „Excimer laser ablation of molten
metals as followed by ultrafast photography” Appl. Surf. Sci. 138-139,
130-134, 1999
- Cs. Vass, K.
Osvay and B. Hopp: “Fabrication
of 150 nm period grating in fused silica by two-beam interferometric laser
induced backside wet etching method”, 4 September 2006 / Vol. 14,
No. 18 / OPTICS EXPRESS 8354
Paolo Vinciguerra,Fabrizio I. Camesasca: Refractive
surface ablation: PRK, LASEK, epi-LASIK, custom, PTK, and retreatment, SLACK
Incorporated, 2007
- Nógrádi, B. Hopp, K.
Révész, G. Szabó, Zs. Bor, L. Kolozsvári:
„Atomic force microscopic study of the human cornea following
excimer laser keratectomy”, Exp. Eye Res. 70, 363-368, 2000
Daniel M. Albert,Frederick A. Jakobiec:
Principles and practice of ophthalmology, 2. kötet, W.B. Saunders Co.,
2000
·
Zs. Bor, B. Hopp, B. Rácz, G. Szabó, I. Ratkay, I.
Süveges, Á. Füst, J. Mohay: "Plume emission, shock wave
and surface wave formation during excimer laser ablation of the cornea". Refractive
& Corneal Surgery vol. 9, March/April, 111-115, 1993
Ophthalmology , 104. kötet,5. kiadás,
American Academy of Ophthalmology, 1997
·
Zs. Bor, B. Hopp, B. Rácz, G. Szabó, I. Ratkay, I.
Süveges, Á. Füst, J. Mohay: "Plume emission, shock wave
and surface wave formation during excimer laser ablation of the cornea". Refractive
& Corneal Surgery vol. 9, March/April, 111-115, 1993
Gary S. Settles: Schlieren and
shadowgraph techniques: visualizing phenomena in transparent media,
Springer-Verlag Berlin Heidelberg New York, 2001
·
Zs. Bor, B. Hopp, B. Rácz, G. Szabó, I. Ratkay, I.
Süveges, Á. Füst, J. Mohay: "Plume emission, shock wave
and surface wave formation during excimer laser ablation of the cornea". Refractive
& Corneal Surgery vol. 9, March/April, 111-115, 1993
Challa S. S. R. Kumar: Tissue, cell and
organ engineering, Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim, 2006
- T. Smausz, B. Hopp, N. Kresz: „Pulsed laser
deposition of compact high adhesion PTFE thin films”, J. Phys. D:
Appl. Phys. 35 No. 15, 1859-1863 2002
Ashley J. Welch: Optical-Thermal Response of
Laser-Irradiated Tissue, Springer 1995
·
Zs. Bor, B. Hopp, B. Rácz, G. Szabó, I. Ratkay, I.
Süveges, Á. Füst, J. Mohay: "Plume emission, shock wave
and surface wave formation during excimer laser ablation of the cornea". Refractive
& Corneal Surgery vol. 9, March/April, 111-115, 1993