The changing point-spread function: single-molecule-based super-resolution imaging. Horrocks, M. H, Palayret, M., Klenerman, D., & Lee, S. F Histochem. Cell Biol., 141(6):577–585, Springer Science and Business Media LLC, June, 2014. abstract bibtex Over the past decade, many techniques for imaging systems at a resolution greater than the diffraction limit have been developed. These methods have allowed systems previously inaccessible to fluorescence microscopy to be studied and biological problems to be solved in the condensed phase. This brief review explains the basic principles of super-resolution imaging in both two and three dimensions, summarizes recent developments, and gives examples of how these techniques have been used to study complex biological systems.
@ARTICLE{Horrocks2014-nh,
title = "The changing point-spread function: single-molecule-based
super-resolution imaging",
author = "Horrocks, Mathew H and Palayret, Matthieu and Klenerman, David
and Lee, Steven F",
abstract = "Over the past decade, many techniques for imaging systems at a
resolution greater than the diffraction limit have been
developed. These methods have allowed systems previously
inaccessible to fluorescence microscopy to be studied and
biological problems to be solved in the condensed phase. This
brief review explains the basic principles of super-resolution
imaging in both two and three dimensions, summarizes recent
developments, and gives examples of how these techniques have
been used to study complex biological systems.",
journal = "Histochem. Cell Biol.",
publisher = "Springer Science and Business Media LLC",
volume = 141,
number = 6,
pages = "577--585",
month = jun,
year = 2014,
language = "en"
}
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