Full publication list




  • S.-T. Hung, A. Llobet Rosell, D. Jurriens, M. Siemons, O. Soloviev, L. C. Kapitein, K. Grußmayer, L. J. Neukomm, M. Verhaegen and C. S. Smith, Adaptive optics in single objective inclined light sheet microscopy enables three-dimensional localization microscopy in whole adult Drosophila brains, Frontiers in Neuroscience Oct. 2022,
  • M. Engelhardt and K. Grußmayer, Mapping volumes to planes: Camera-based strategies for snapshot volumetric microscopy, Frontiers in Physics Oct. 2022,
  • S.-T. Hung, J. Cnossen, D. Fan, M. Siemons, D. Jurriens, K. Grußmayer, O. Soloviev, L. C. Kapitein, and C. S. Smith, SOLEIL: single-objective lens inclined light sheet localization microscopy, Biomed. Opt. Express May 2022, 13, 3275-3294.


  • V. Navikas, S. M. Leitao, K. S. Grussmayer, A. Descloux, B. Drake, K. Yserentant, P. Werther, D.-P. Herten, R. Wombacher, A. Radenovic, G. E. Fantner, Correlative 3D microscopy of single cells using super-resolution and scanning ion-conductance microscopy, Nat Commun July 2021, 12, 4565. [OA, bioRxiv 2020.11.09.374157].
  • A. C. Descloux, K.S. Grussmayer, V. Navikas, D. Mahecic, S. Manley, A. Radenovic, Experimental Combination of Super-Resolution Optical Fluctuation Imaging with Structured Illumination Microscopy for Large Fields-of-View, ACS Photonics July 2021, 8, 8, 2440–2449.
  • V. Navikas, A. C. Descloux, K.S. Grussmayer, S. Marion, A. Radenovic, Adaptive optics enables multimode 3D super-resolution microscopy via remote focusing. Nanophotonics June 10, 2021, 000010151520210108.
  • A.C. Descloux, K.S. Grußmayer, & A. Radenovic, Parameter-free rendering of single-molecule localization microscopy data for parameter-free resolution estimation. Commun Biol May 2021, 4, 550.
  • S. Hugelier, W. Vandenberg, T. Lukeš, K. S. Grußmayer, P. H. C. Eilers, P. Dedecker, C. Ruckebusch, Smoothness correction for better SOFI imaging, Scientific Reports April 2021, 11, 7569.
  • P. Werther, K. Yserentant, F. Braun, K. Grussmayer, V. Navikas, M. Yu, Z. Zhang, M. J. Ziegler, C. Mayer, A. J. Gralak, M. Busch, W. Chi, F. Rominger, A. Radenovic, X. Liu, E. A. Lemke, T. Buckup, D.-P. Herten, R. Wombacher, Bioorthogonal red and far-red fluorogenic probes for wash-free live-cell and super-resolution microscopy, ACS Cent. Sci. August 2021, 7, 9, 1561–157.1


  • A. Descloux, K. S. Grußmayer, & A. Radenovic, Addendum: Parameter-free image resolution estimation based on decorrelation analysis. Nat Methods Sept. 2020, 17, 1061–1063.
  • K. S. Grußmayer, T. Lukes, T. Lasser, A. Radenovic, Self-blinking Dyes unlock High-order and Multi-plane Super-resolution Optical Fluctuation Imaging, ACS Nano June 2020, 14, 7, 9156–9165. [OA, arXiv:2002.10224].
  • K.S.Grußmayer,S.Geissbuehler,A.Descloux,T.Lukes,M.Leutenegger,A.Radenovic, T. Lasser, Spectral Cross-Cumulants for Multicolor Super-resolved SOFI Imaging, Nat Commun June 2020, 11, 3023. [OA, arXiv:1907.07007]. 


  • A. Descloux, K. S. Grußmayer, and A. Radenovic, Parameter-free image resolution estimation based on decorrelation analysis, Nature Methods Aug. 2019, 16, 918–924.
  • A.Bouwens,J.Deen,R.Vitale,L.D’Huys,V.Goyvaerts,A.Descloux,D.Borrenberghs, K. Grussmayer, T. Lukes, R. Camacho, J. Su, C. Ruckebusch, T. Lasser, D. Van De Ville, J. Hofkens, A. Radenovic, K. P. F. Janssen, Identifying microbiome species by single- molecule super-resolved DNA mapping and resampling statistics, accepted in NAR: Genomics and Bioinformatics 2019 , [OA: bioRxiv:10.1101/609412].
  • K. S. Grußmayer, K. Yserentant (equal contribution), and D.–P. Herten, Photons in – numbers out: Perspectives in quantitative fluorescence microscopy for in situ protein counting, Invited perspective article for Methods and Applications in Fluorescence Jan. 2019, 7, 012003, [OA, arXiv: 1809.02464]


  • A. Descloux, K. S. Grußmayer (equal contribution), E. Bostan, T. Lukes, A. Bouwens, A. Sharipov, S. Geissbuehler, A.-L. Mahul-Mellier, H. A. Lashuel, M. Leutenegger, and T. Lasser, Combined multi-plane phase retrieval and super-resolution optical fluctuation imaging for 4D cell microscopy, Nature Photonics Feb. 2018, 12, 165–172, [OA, arXiv:1705.05766].


  • K. S. Grußmayer and D.–P. Herten, Time-resolved molecule counting by photon statistics across the visible spectrum, PhysChemChemPhys Mar. 2017, 19, 8962–8969.


  • K.S.Grußmayer,F.Steiner,J.M.Lupton,D.–P.Herten,andJ.Vogelsang,Differentiation between shallow and deep trap states on single poly(3- hexylthiophene) chains by photon statistics, ChemPhysChem Dec. 2015, 16, 3578–3583, [OA, arXiv:1612.02980].
  • C. Liesche, K. S. Grußmayer, M. Ludwig, S. Wörz, K. Rohr, D.–P. Herten, J. Beaudouin, and R. Eils, Automated Analysis of Single Molecule Photobleaching Data by Statistical Modeling of Spot Populations. Biophysical Journal Dec. 2015, 109, 2352–2362, [OA].
  • K. S. Grußmayer and D.–P. Herten, Photon Antibunching in Single Molecule Fluores- cence Spectroscopy, in Advanced Photon Counting, (Eds.: P. Kapusta, M. Wahl, R. Erdmann), Springer International Publishing, Cham, Apr. 2015, pp. 159–190.


  • K.S.Grußmayer,A.Kurz,D.–P.Herten,Single-MoleculeStudiesontheLabelNumber Distribution of Fluorescent Markers, ChemPhysChem Feb. 2014, 15, 734–742.
  • A. Kurz, J. J. Schmied, K. S. Grußmayer, P. Holzmeister, P. Tinnefeld, D.–P. Herten, Counting fluorescent dye molecules on DNA origami by means of photon statistics, Small Dec. 2013, 9, 4061–4068.


  • A. Rybina, C. Lang, M. Wirtz, K. S. Grußmayer, A. Kurz, F. Maier, A. Schmitt, O. Trapp, G. Jung, D.-P. Herten, Distinguishing Alternative Reaction Pathways by Single- Molecule Fluorescence Spectroscopy, Angewandte Chemie International Edition 2013, 52(24), 6322–6325.
  • K. S. Grußmayer, T. Ehrhard, K. Lymperopoulos, and D.–P. Herten, Precise quantifi- cation of transcription factors in a surface-based single-molecule assay, Biophysical Chemistry 2013, 184(C), 1–7, [OA].