Microscopy and its focal switch
Top Cited Papers
- 17 December 2008
- journal article
- Published by Springer Nature in Nature Methods
- Vol. 6 (1), 24-32
- https://doi.org/10.1038/nmeth.1291
Abstract
Until not very long ago, it was widely accepted that lens-based (far-field) optical microscopes cannot visualize details much finer than about half the wavelength of light. The advent of viable physical concepts for overcoming the limiting role of diffraction in the early 1990s set off a quest that has led to readily applicable and widely accessible fluorescence microscopes with nanoscale spatial resolution. Here I discuss the principles of these methods together with their differences in implementation and operation. Finally, I outline potential developments.Keywords
This publication has 85 references indexed in Scilit:
- Super-resolution imaging in live Caulobacter crescentus cells using photoswitchable EYFPNature Methods, 2008
- Fluorescence nanoscopy by ground-state depletion and single-molecule returnNature Methods, 2008
- Trading molecules and tracking targets in symbiotic interactionsNature Chemical Biology, 2008
- Live-cell photoactivated localization microscopy of nanoscale adhesion dynamicsNature Methods, 2008
- Subdiffraction Imaging through the Selective Donut-Mode Depletion of Thermally Stable Photoswitchable Fluorophores: Numerical Analysis and Application to the Fluorescent Protein DronpaJournal of the American Chemical Society, 2007
- Wide‐field subdiffraction RESOLFT microscopy using fluorescent protein photoswitchingMicroscopy Research and Technique, 2007
- Single-molecule mountains yield nanoscale cell imagesNature Methods, 2006
- Sub-diffraction-limit imaging by stochastic optical reconstruction microscopy (STORM)Nature Methods, 2006
- Imaging and writing at the nanoscale with focused visible light through saturable optical transitionsApplied Physics A, 2003
- Toward fluorescence nanoscopyNature Biotechnology, 2003