Hacking the optical diffraction limit: Review on recent developments of fluorescence nanoscopy 被引量：7

Hacking the optical diffraction limit: Review on recent developments of fluorescence nanoscopy

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摘要 Subject to the diffraction limit, the resolution of conventional optical microscopy is constrained to about 200 and 500 nm in the lateral and axial planes, respectively. The advantage of optical microscopy in the life sciences over electronic microscopy, especially fluorescence microscopy, drives scientists to develop novel "hacks" to reach nanoscale resolutions by optical means. In this review, three aspects of the techniques are discussed: (1) lateral super-resolution; (2) axial super-resolution; (3) super-resolution in three dimensions. The principles of how the methods achieve the cross-barrier resolution are discussed, and recent advances in current techniques are described. With these methods, the use of fluorescence microscopy is growing quickly toward a new era: fluorescence nanoscopy that will reveal 2 orders of magnitude more information on cellular structure and dynamics. Subject to the diffraction limit, the resolution of conventional optical microscopy is constrained to about 200 and 500 nm in the lateral and axial planes, respectively. The advantage of optical microscopy in the life sciences over electronic microscopy, espe- cially fluorescence microscopy, drives scientists to develop novel ＂hacks＂ to reach nanoscale resolutions by optical means. In this review, three aspects of the techniques are discussed：（1） lateral super-resolution; （2） axial super-resolution; （3） super-resolution in three dimensions. The principles of how the methods achieve the cross-barrier resolution are discussed, and recent advances in current techniques are described. With these methods, the use of fluorescence microscopy is growing quickly toward a new era： fluorescence nanoscopy that will reveal 2 orders of magnitude more information on cellular structure and dynamics.

作者 DING YiChen XI Peng REN QiuShi

机构地区 Department of Biomedical Engineering

出处《Chinese Science Bulletin》 SCIE EI CAS 2011年第18期1857-1876,共20页

基金 supported by the National Basic Research Program of China (2005CB724302, 2010CB933901) the National Natural Science Foundation of China (60588101, 60808029) the National High-Tech Research and Development Program of China (2008AA030118) Shanghai Commission of Science and Technology (064119540, 08PJ14062) Shanghai Jiao Tong University Med-Engineering Fund (YG2009ZD201)

关键词光学显微镜荧光显微镜衍射极限黑客入侵超分辨率电子显微镜超高分辨率 “黑客” optical nanoscopy, fluorescence microscopy, diffraction limit

分类号 O436.1 [机械工程—光学工程]

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