Publications

2020

  • Tóth, E., Ungor, D., Novák, T., Ferenc, Gy., Bánhelyi, B., Csapó ,E., … & Csete, M. (2020): Mapping Fluorescence Enhancement of Plasmonic Nanorod Coupled Dye Molecules, Nanomaterials, 10(6), 1048, (doi: 10.3390/nano10061048)
  • Gajdos, T. (2020) Superresolution localization microscopy using multiple modalities.
    Doctoral dissertation, University of Szeged, doi: http://doktori.bibl.u-szeged.hu/10417/
  • Varga, D., Majoros, H., Újfaludi, Zs., Pankotai, T., & Erdélyi, M. (2020, February). Quantification of labelled target molecules via super-resolution dSTORM localization microscopy. In Single Molecule Spectroscopy and Superresolution Imaging XIII (Vol. 11246, p. 1124612). International Society for Optics and Photonics.
    SPIE, doi: 10.1117/12.2545099
  • Gajdos, T., Hopp, B. & Erdélyi, M. (2020): Hot-band anti-Stokes fluorescence properties of Alexa Fluor 568.
    Journal of Fluorescence doi: 10.1007/s10895-020-02496-0 (IF: 1,913)
  • Szikora, S., Gajdos, T., Novák, T., Farkas, D., Földi, I., Lenart, P., … & Mihály, J. (2020). Nanoscopy reveals the layered organization of the sarcomeric H-zone and I-band complexes.
    The Journal of cell biology, doi: 10.1083/jcb.201907026 (IF: 8,891)
    • Bio-protocol: e3654 (in-press: 2020/06/20)
    • Commentary: González-Morales, N., & Schöck, F. (2020). Nanoscopy reveals the layered organization of the sarcomeric H-zone and I-band complexes.
      Frontiers in Cell and Developmental Biology, doi: 10.3389/fcell.2020.00074

2019

  • E. Gyukity-Sebestyén, M. Harmati, G. Dobra, I. B. Németh, J. Mihály, Á. Zvara, É. Hunyadi-Gulyás, R. Katona, I. Nagy, P. Horváth, Á. Bálind, Á. Szkalisity, M. Kovács, T. Pankotai, B. Borsos, M. Erdélyi, Sz. Szegletes, Z. Vereb, E. I. Buzás, L. Kemény, T. Bíró and K. Búzás: Melanoma-Derived Exosomes Induce PD-1 Overexpression and Tumor Progression via Mesenchymal Stem Cell Oncogenic Reprogramming.
    Frontiers in immunology
    , doi: 10.3389/fimmu.2019.02459 (IF: 4,716)
  • Varga, D., Majoros, H., Ujfaludi, Z., Erdélyi, M., & Pankotai, T. (2019). Quantification of DNA damage induced repair focus formation via super-resolution dSTORM localization microscopy.
    Nanoscale, doi: 10.1039/C9NR03696B (IF: 6.970)
  • Gajdos, T., Cserteg, Z., Szikora, S., Novák, T., Kovács, B. B. H., Szabó, G., … & Erdélyi, M. (2019). mmSTORM: Multimodal localization based super-resolution microscopy.
    Scientific Reports, doi: 10.1038/s41598-018-37341-9 (IF: 4,011)

2017

  • Novák, T., Gajdos, T., Sinkó, J., Szabó, G., & Erdélyi, M. (2017). TestSTORM: Versatile simulator software for multimodal super-resolution localization fluorescence microscopy.
    Scientific Reports, doi: 10.1038/s41598-017-01122-7 (IF: 5,05)
  • Erdélyi, M., Sinkó, J., Gajdos, T., & Novák, T. (2017, February). Enhanced simulator software for image validation and interpretation for multimodal localization super-resolution fluorescence microscopy. In Single Molecule Spectroscopy and Superresolution Imaging X (Vol. 10071, p. 100710X). International Society for Optics and Photonics.
    SPIE, doi: 10.1117/12.2250116.
  • Sinkó, J., Gajdos, T., Czvik, E., Szabó, G., & Erdélyi, M. (2017). Polarization sensitive localization based super-resolution microscopy with a birefringent wedge.
    Methods and Applications in Fluorescence, doi: 10.1088/2050-6120/aa6260, (IF: 2,429).
  • Gielen, F., Butz, M., Rees, E. J., Erdelyi, M., Moschetti, T., Hyvönen, M., … & Hollfelder, F. (2017). Quantitative affinity determination by fluorescence anisotropy measurements of individual nanoliter droplets.
    Analytical Chemistry, doi: 10.1021/acs.analchem.6b02528, (IF: 5,886)

2015

  • Manetsberger, J., Manton, J. D., Erdelyi, M. J., Lin, H., Rees, D., Christie, G., & Rees, E. J. (2015). Ellipsoid localization microscopy infers the size and order of protein layers in Bacillus spore coats.
    Biophysical Journal, doi: 10.1016/j.bpj.2015.09.023, (IF: 3,972).
  • Steuwe, C., Erdelyi, M., Szekeres, G., Csete, M., Baumberg, J. J., Mahajan, S., & Kaminski, C. F. (2015, August). Visualisation of plasmonic fields at the nanoscale with single molecule localisation microscopy.
    In Nanoimaging and Nanospectroscopy III (Vol. 9554, p. 95540Q). International Society for Optics and Photonics. doi: 10.1117/12.2190835
  • Erdélyi, M., Sinkó, J., Kákonyi, R., Kelemen, A., Rees, E., Varga, D., & Szabó, G. (2015). Origin and compensation of imaging artefacts in localization-based super-resolution microscopy.
    Methods, doi: 10.1016/j.ymeth.2015.05.025 (IF: 3,645)
  • Csizmadia, T., Erdélyi, M., Smausz, T., Novák, T., & Hopp, B. (2015). Simulation of the reflectivity properties of microstructured titanium surface by ray tracing method.
    JLMN Journal of Laser Micro/Nanoengineering, doi: 10.2961/jlmn.2015.02.0001 (IF:1,008)
  • Davies, T., Kodera, N., Schierle, G. S. K., Rees, E., Erdelyi, M., Kaminski, C. F., … & Mishima, M. (2015). CYK4 promotes antiparallel microtubule bundling by optimizing MKLP1 neck conformation.
    PLoS Biology, doi: 10.1371/journal.pbio.1002121 (IF: 11,771)
  • Steuwe, C., Erdelyi, M., Szekeres, G., Csete, M., Baumberg, J. J., Mahajan, S., & Kaminski, C. F. (2015). Visualizing electromagnetic fields at the nanoscale by single molecule localization.
    Nano Letters, doi: 1021/acs.nanolett.5b00405 (IF: 13,592)

2014

  • Sinkó, J. (2014). Studying and correcting the optical aberrations and reconstruction errors in localization based super-resolution microscopy.
    Doctoral dissertation, University of Szeged), doi: 10.14232/phd.1935
  • Sinkó, J., Szabó, G., & Erdélyi, M. (2014). Ray tracing analysis of inclined illumination techniques.
    Optics Express, doi: 10.1364/OE.22.018940 (IF: 4,653)
  • Sinkó, J., Kákonyi, R., Rees, E., Metcalf, D., Knight, A. E., Kaminski, C. F., … & Erdélyi, M. (2014). TestSTORM: Simulator for optimizing sample labeling and image acquisition in localization based super-resolution microscopy.
    Biomed. Optics Express, doi: 10.1364/BOE.5.000778 (IF: 4,437)
  • Erdélyi Miklós, Sinkó József: Optikai pointillizmus: A lokalizációs optikai mikroszkópia.
    Fizikai Szemle 2014.05.
  • Esbjörner, E. K., Chan, F., Rees, E., Erdelyi, M., Luheshi, L. M., Bertoncini, C. W., … & Schierle, G. S. K. (2014). Direct observations of amyloid β self-assembly in live cells provide insights into differences in the kinetics of Aβ (1–40) and Aβ (1–42) aggregation.
    Chemistry & Biology, doi: 10.1016/j.chembiol.2014.03.014
  • Erdelyi, M., Simon, J., Barnard, E. A., & Kaminski, C. F. (2014). Analyzing receptor assemblies in the cell membrane using fluorescence anisotropy imaging with TIRF microscopy.
    PLoS ONE, doi: 10.1371/journal.pone.0100526
  • Dudás, L. (2014). Laterális feloldás és képminőség javítása vonalpásztázó tomográfiás optikai mikroszkópban.
    (Doctoral dissertation, University of Szeged), doi: 10.14232/phd.1935

2013

  • Rees, E. J., Erdelyi, M., Schierle, G. S. K., Knight, A., & Kaminski, C. F. (2013). Elements of image processing in localization microscopy.
    Journal of Optics, Special Issue: High Resolution Optical Imaging, doi: 10.1088/2040-8978/15/9/094012
  • Erdelyi, M., Rees, E., Metcalf, D., Schierle, G. S. K., Dudas, L., Sinko, J., … & Kaminski, C. F. (2013). Correcting chromatic offset in multicolor super-resolution localization microscopy.
    Optics Express, doi: 10.1364/OE.21.011978 (IF: 4,711

2012

  • Kis, B. J., Sarnyai, Z., Kákonyi, R., Erdélyi, M., & Szabó, G. (2012). Single-Energy Material Decomposition Using X-Ray Path Length Estimation.
    Journal of computer assisted tomography, doi: 10.1097/RCT.0b013e318267ab96
  • Dudás, L., Gajdátsy, G., Sinkó, J., Erdélyi, M., & Szabó, G. (2012). Correction of error motion in a line-scanning tomographic optical microscope.
    Applied optics, doi: 10.1364/AO.51.006319
  • Dudás, L., Sinkó, J., Erdélyi, M., & Szabó, G. (2012). Confocal line-scanning microscope with modified illumination.
    Optics letters, doi: 10.1364/OL.37.004293
  • Rees, E. J., Erdelyi, M., Pinotsi, D., Knight, A., Metcalf, D., & Kaminski, C. F. (2012). Blind assessment of localisation microscope image resolution.
    Optical Nanoscopy, doi: 10.1186/2192-2853-1-12
  • Ahn, M., De Genst, E., Schierle, G. S. K., Erdelyi, M., Kaminski, C. F., Dobson, C. M., & Kumita, J. R. (2012). Analysis of the native structure, stability and aggregation of biotinylated human lysozyme.
    PloS one, doi: 10.1371/journal.pone.0050192
  • Erdelyi, M. & Metcalf, D. (2012) Single Molecule Pointillism – Challenges in Localization Based Super-Resolution Microscopy
    Imaging & Microscopy, ISSN: 1439-4243, 14(3) 39-41

2011

  • Kaminski Schierle, G. S., Van De Linde, S., Erdelyi, M., Esbjörner, E. K., Klein, T., Rees, E., … & Kaminski, C. F. (2011). In situ measurements of the formation and morphology of intracellular β-amyloid fibrils by super-resolution fluorescence imaging.
    Journal of the American Chemical Society, doi: 10.1021/ja201651w
  • Sinkó, J., Dudás, L., Gajdátsy, G., Erdélyi, M., & Szabó, G. (2011). Map-free line-scanning tomographic optical microscope.
    Optics letters, doi: 10.1364/OL.36.004011
  • Kákonyi, R. (2011). Vaszkuláris rendszerek modellezése
    (Doctoral dissertation, University of Szeged), doi: 10.14232/phd.601
  • Gajdátsy, G. (2011). Vonalpásztázáson alapuló tomográfiás optikai mikroszkóp elméleti és kísérleti vizsgálata
    (Doctoral dissertation, University of Szeged), doi: 10.14232/phd.618

2010

  • Kákonyi, R., Erdélyi, M., & Szabó, G. (2010). Monte Carlo simulation of the effects of anode surface roughness on x‐ray spectra.
    Medical physics, doi: 10.1118/1.3495541
  • Gajdátsy, G., Dudás, L., Erdélyi, M., & Szabó, G. (2010). Line-scanning tomographic optical microscope with isotropic transfer function.
    Journal of Optics, doi: 10.1088/2040-8978/12/11/115505

2009

  • Erdélyi, M., Lajkó, M., Kákonyi, R., & Szabó, G. (2009). Measurement of the x‐ray tube anodes’ surface profile and its effects on the x‐ray spectra.
    Medical physics, doi: 10.1118/1.3056464
  • Kovács, M., Danyi, R., Erdélyi, M., Fejérdy, P., & Dobó-Nagy, C. (2009). Distortional effect of beam-hardening artefacts on microCT: a simulation study based on an in vitro caries model.
    Oral Surgery, Oral Medicine, Oral Pathology, Oral Radiology, and Endodontology, doi: 10.1016/j.tripleo.2009.06.009
  • Kákonyi, R., Erdélyi, M., & Szabó, G. (2009). Monte Carlo analysis of energy dependent anisotropy of bremsstrahlung x‐ray spectra. Medical physics, doi: 10.1118/1.3176954
  • Patay, I., Erdélyi, M., & Gulyás, L. (2009). Developing and testing solar collectors.
    Progress in Agricultural Engineering Sciences, doi: 10.1556/Progress.5.2009.3

2008

  • Erdélyi, M., & Gajdátsy, G. (2008). Radial and azimuthal polarizer by means of a birefringent plate.
    Journal of Optics A: Pure and Applied Optics, doi: 10.1088/1464-4258/10/5/055007
  • Erdélyi, M., Bereznai, M., Gajdátsy, G., & Bor, Z. (2008). Three-dimensional focus manipulation by means of a birefringent plate. Optics Communications, doi: 10.1016/j.optcom.2008.06.024
  • Patay, I. & Erdélyi, M. (2008 May 29-30.) Determination of the Radiation Fields in Plate Mirror Concentrators for Solar Collectors
    Proceedings of Sixth Conference on Mechanical Engineering, F2, 7p Budapest

2007

  • Gajdátsy, G., & Erdélyi, M. (2007). Analysis of focus distortion based on birefringence.
    Journal of Optics A: Pure and Applied Optics, doi: 10.1088/1464-4258/9/11/003
  • Szabó, G., Erdélyi, M., Gajdátsy, G. & Dudás, L. (2007, November): Optikai mikroszkóprendszer és azzal megvalósított eljárás tárgy képének rekonstruálására
    Hungarian Patent Office, Ref No.:  P 07 00569

2006

  • Erdélyi, M., Kovács, A. P., Mecseki, K., & Szabó, G. (2006, July). Control of Third Order Dispersion of Ultrashort Laser Pulses.
    In International Conference on Ultrafast Phenomena (p. TuG20). Optical Society of America, doi: 10.1364/UP.2006.TuG20
  • Erdélyi, M., & Bor, Z. (2006). Radial and azimuthal polarizers.
    Journal of Optics A: Pure and Applied Optics, doi: 10.1088/1464-4258/8/9/005

2005

2004

  • Erdélyi, M., Szörényi, T., Hopp, B., Szabó, G.,& Bor Zs. (2004). Lézerek a félvezető-gyártásban és a mikroelektronikai technológiában
    A magyar elektronikai ipar – Múlt és jelen, Szerkesztő: Dr. Mojzes Imre, Műegyetemi Kiadó, 9. fejezet, 151-168, ISBN: 963-420-827-4

2002

  • Richter, D., Erdelyi, M., Curl, R. F., Tittel, F. K., Oppenheimer, C., Duffell, H. J., & Burton, M. (2002). Field measurements of volcanic gases using tunable diode laser based mid-infrared and Fourier transform infrared spectrometers.
    Optics and Lasers in Engineering, doi: 10.1016/S0143-8166(01)00094-X
  • Bozóki, Z., Mohácsi, Á., Szabó, G., Bor, Z., Erdélyi, M., Chen, W., & Tittel, F. K. (2002). Near-infrared diode laser based spectroscopic detection of ammonia: A comparative study of photoacoustic and direct optical absorption methods.
    Applied spectroscopy, doi: 10.1366/000370202760077658
  • Erdélyi, M., Richter, D., & Tittel, F. K. (2002). 13 CO 2/12 CO 2 isotopic ratio measurements using a difference frequency-based sensor operating at 4.35 μm.
    Applied Physics B, doi: 10.1007/s00340-002-0960-2

2001

  • Rehle, D., Leleux, D., Erdelyi, M., Tittel, F., Fraser, M., & Friedfeld, S. (2001). Ambient formaldehyde detection with a laser spectrometer based on difference-frequency generation in PPLN.
    Applied Physics B, doi: 10.1007/s003400100549
  • Richter, D., Erdelyi, M., & Tittel, F. K. (2001, January). Ultra-compact mid-IR spectroscopic source based on frequency converted Yb-Er/Yb fiber amplified cw diode lasers.
    In Advanced Solid State Lasers (p. MB10). Optical Society of America., doi: 10.1364/ASSL.2001.MB10

2000

  • Erdélyi, M., Bor, Z., Wilson, W. L., Smayling, M. C., & Tittel, F. K. (2000). Enhanced optical microlithography with a Fabry–Perot-based spatial filtering technique.
    Applied optics, doi: 10.1364/AO.39.001121

1999

  • Erdelyi, M., Bor, Z., Wilson, W. L., Smayling, M. C., & Tittel, F. K. (1999). Simulation of coherent multiple imaging by means of pupil-plane filtering in optical microlithography.
    JOSA A, doi: 10.1364/JOSAA.16.001909
  • Erdelyi, M., Kroyan, A., Osvay, K., Bor, Z., Wilson Jr, W. L., Smayling, M. C., & Tittel, F. K. (1999, July). Coherent multiple imaging by means of pupil plane filtering.
    In Optical Microlithography XII (Vol. 3679, pp. 762-771). International Society for Optics and Photonics., doi: 10.1117/12.354393
  • Erdelyi, M., Osvay, K., Bor, Z., Wilson Jr, W. L., Smayling, M. C., & Tittel, F. K. (1999, April). Enhanced microlithography using coherent multiple imaging.
    In Lithography for Semiconductor Manufacturing (Vol. 3741, pp. 180-188). International Society for Optics and Photonics., doi: 10.1117/12.346891

1998

  • Erdélyi, M., Hilbert, M., & Bor, Z. (1998). Anomalous dispersion of dye solutions observed in a prismatic cuvette.
    American Journal of Physics, doi: 10.1119/1.18958
  • Horvath, Z. L., Erdelyi, M., Szabo, G., Bor, Z., Tittel, F. K., & Cavallaro, J. R. (1998, July). Generation of zero-order Bessel beams with Fabry-Perot interferometer.
    In Second GR-I International Conference on New Laser Technologies and Applications (Vol. 3423, pp. 135-139). International Society for Optics and Photonics., doi: 10.1117/12.316568
  • Tittel, F. K., Erdelyi, M., Horvath, Z. L., Kroyan, A., Wilson Jr, W. L., Smayling, M. C., … & Szabo, G. (1998, June). Present and future trends in excimer-laser-based microlithography.
    In International Conference on Atomic and Molecular Pulsed Lasers II (Vol. 3403, pp. 248-253). International Society for Optics and Photonics., doi: 10.1117/12.311947
  • Erdelyi, M., Bor, Z., Szabo, G., & Tittel, F. K. (1998, June). Enhanced microlithography using coated objectives and image duplication.
    In Optical Microlithography XI (Vol. 3334, pp. 579-589). International Society for Optics and Photonics., doi: 10.1117/12.310787

1997

  • Horvath, Z. L., Erdelyi, M., Szabo, G., Bor, Z., Tittel, F. K., & Cavallaro, J. R. (1997). Generation of nearly nondiffracting Bessel beams with a Fabry–Perot interferometer.
    JOSA A, doi: 10.1364/JOSAA.14.003009
  • Erdelyi, M., Horvath, Z. L., Szabo, G., Bor, Z., Tittel, F. K., Cavallaro, J. R., & Smayling, M. C. (1997). Generation of diffraction-free beams for applications in optical microlithography.
    Journal of Vacuum Science & Technology B: Microelectronics and Nanometer Structures Processing, Measurement, and Phenomena, doi: 10.1116/1.589280
  • Erdelyi, M., Horvath, Z. L., Bor, Z., Szabo, G., Cavallaro, J. R., Smayling, M. C., & Tittel, F. K. (1997, July). Optical microlithography with nearly nondiffracting beams.
    In Optical Microlithography X (Vol. 3051, pp. 959-966). International Society for Optics and Photonics., doi: 10.1117/12.276053
  • Tittel, F. K., Cavallaro, J. R., Erdelyi, M., Szabo, G., Bor, Z., & Smayling, M. C. (1997, April). High resolution microlithography applications of deep-UV excimer lasers.
    In XI International Symposium on Gas Flow and Chemical Lasers and High-Power Laser Conference (Vol. 3092, pp. 462-466). International Society for Optics and Photonics., doi: 10.1117/12.270108
  • Bor, Zs., Csete, M., Erdelyi, M., Geretovszky, Zs., Heszler, P., Hopp, B., Horvath, Z., Kantor, Z., Revesz, B., Szabo, G., Szorenyi, T., & Toth Zs. Surface structuring by laser-based techniques, Nanotechnology, a dedicated tool for the future, Eds.: I. Mojzes and B. Kovács, ISBN 963-8531657, MIL-ORG. Ltd, NETI, Budapest, 67-105 (1997).

1996

  • Sengupta, C., Erdelyi, M., Bor, Z., Cavallaro, J. R., Smayling, M. C., Szabo, G., … & Wilson Jr, W. L. (1996, June). Integrated CAD framework linking VLSI layout editors and process simulators.
    In Optical Microlithography IX (Vol. 2726, pp. 244-252). International Society for Optics and Photonics., doi: 10.1117/12.240955
  • Erdelyi, M., Bor, Z., Szabo, G., Cavallaro, J. R., Smayling, M. C., Tittel, F. K., & Wilson Jr, W. L. (1996, June). Sub-quarter-micrometer contact hole fabrication using annular illumination.
    In Optical Microlithography IX (Vol. 2726, pp. 88-93). International Society for Optics and Photonics., doi: 10.1117/12.240953

1995

  • Erdelyi, M., Sengupta, C., Bor, Z., Szabo, G., Cavallaro, J. R., Smayling, M. C., & Wilson, W. L. (1995, July). Ultrahigh Resolution Lithography with Excimer Lasers.
    In NATO Workshop on Gas Lasers-Recent Developments and Future Prospects (pp. 263-272). Kluwer Academic Publishers., url: https://hdl.handle.net/1911/64288
  • Erdélyi, M., Bor, Z., Cavallaro, J. R., Szabó, G., Wilson, W. L., Sengupta, C., & Smayling, M. C. (1995). Enhanced microlithography using combined phase shifting and off-axis illumination.
    Japanese journal of applied physics, doi: 10.1143/JJAP.34.L1629
  • Erdelyi, M., Sengupta, C., Bor, Z., Cavallaro, J. R., Kido, M., Smayling, M. C., … & Szabo, G. (1995, May). New interferometric phase-shifting technique for sub-half-micron laser microlithography.
    In Optical/Laser Microlithography VIII (Vol. 2440, pp. 827-837). International Society for Optics and Photonics., doi: 10.1117/12.209308
  • Bor, Z., Cavallaro, J. R., Erdelyi, M., Kido, M., Sengupta, C., Smayling, M. C., … & Wilson Jr, W. L. (1995, April). New phase-shifting technique for deep UV excimer laser-based lithography.
    In UV and Visible Lasers and Laser Crystal Growth (Vol. 2380, pp. 195-202). International Society for Optics and Photonics. doi: 10.1117/12.206950