Stefan W. Hell
Affiliations: | Max Planck Institute for Biophysical Chemistry, Göttingen, Niedersachsen, Germany |
Website:
http://www.nobelprize.org/nobel_prizes/chemistry/laureates/2014/hell-facts.htmlGoogle:
"Stefan W. Hell"Bio:
http://www.mpibpc.mpg.de/hell
http://de.wikipedia.org/wiki/Stefan_Hell
http://www.kavliprize.org/prizes-and-laureates/laureates/stefan-w-hell
http://katalog.ub.uni-heidelberg.de/cgi-bin/titel.cgi?katkey=2568673
The Nobel Prize in Chemistry 2014 was awarded jointly to Eric Betzig, Stefan W. Hell and William E. Moerner "for the development of super-resolved fluorescence microscopy".
Mean distance: 12.79 | S | N | B | C | P |
Cross-listing: Physics Tree
Parents
Sign in to add mentor| Siegfried Hunklinger | grad student | 1990 | Universität Heidelberg (Physics Tree) | |
| (Abbildung transparenter Mikrostrukturen im konfokalen Mikroskop) | ||||
| Ernst Stelzer | post-doc | 1990-1993 | EMBL Heidelberg (Neurotree) | |
Children
Sign in to add trainee| Thomas A. Klar | grad student | 1997-2001 | Max Planck Institute for Biophysical Chemistry (Physics Tree) |
| Joerg Bewersdorf | grad student | 2002 | (Cell Biology Tree) |
| Christian Eggeling | post-doc | Oxford | |
| Dusan Kolarski | post-doc | Max Planck Institute for Multidisciplinary Sciences | |
| Chaitanya K. Ullal | post-doc | ||
| Stefan Jakobs | post-doc | 1999-2005 | Max Planck Institute for Biophysical Chemistry |
BETA: Related publications
See more...
Publications
|
You can help our author matching system! If you notice any publications incorrectly attributed to this author, please sign in and mark matches as correct or incorrect. |
| Ostersehlt LM, Jans DC, Wittek A, et al. (2022) DNA-PAINT MINFLUX nanoscopy. Nature Methods. 19: 1072-1075 |
| Heynck L, Matthias J, Bossi ML, et al. (2022) -Cyanorhodamines: cell-permeant, photostable and bathochromically shifted analogues of fluoresceins. Chemical Science. 13: 8297-8306 |
| Kim D, Aktalay A, Jensen N, et al. (2022) Supramolecular Complex of Photochromic Diarylethene and Cucurbit[7]uril: Fluorescent Photoswitching System for Biolabeling and Imaging. Journal of the American Chemical Society. 144: 14235-14247 |
| Lincoln R, Bossi ML, Remmel M, et al. (2022) A general design of caging-group-free photoactivatable fluorophores for live-cell nanoscopy. Nature Chemistry. 14: 1013-1020 |
| Aktalay A, Ponsot F, Bossi ML, et al. (2022) Cleavable linker incorporation into a synthetic dye - nanobody -fluorescent protein assembly: FRET, FLIM and STED microscopy. Chembiochem : a European Journal of Chemical Biology |
| Bates M, Keller-Findeisen J, Przybylski A, et al. (2022) Optimal precision and accuracy in 4Pi-STORM using dynamic spline PSF models. Nature Methods. 19: 603-612 |
| Butkevich AN, Weber M, Cereceda Delgado AR, et al. (2021) Photoactivatable Fluorescent Dyes with Hydrophilic Caging Groups and Their Use in Multicolor Nanoscopy. Journal of the American Chemical Society. 143: 18388-18393 |
| Konen T, Stumpf D, Grotjohann T, et al. (2021) The Positive Switching Fluorescent Protein Padron2 Enables Live-Cell Reversible Saturable Optical Linear Fluorescence Transitions (RESOLFT) Nanoscopy without Sequential Illumination Steps. Acs Nano |
| Weber M, Leutenegger M, Stoldt S, et al. (2021) MINSTED fluorescence localization and nanoscopy. Nature Photonics. 15: 361-366 |
| Uno K, Aktalay A, Bossi ML, et al. (2021) Turn-on mode diarylethenes for bioconjugation and fluorescence microscopy of cellular structures. Proceedings of the National Academy of Sciences of the United States of America. 118 |