@article{ETD,
      school = {Ph.D.},
      author = {Wang, Jing},
      url = {http://digitalcollections.ohsu.edu/record/7660},
      title = {Probing biological nano-structures with advanced optical  techniques},
      publisher = {Oregon Health and Science University},
      abstract = {This thesis work focuses on technical developments in the  field of superresolution fluorescence microscopy (SRM) and  applications of SRM to probing the spatial organization of  biological systems at the nanometer and single-molecule  scales. Fluorescence microscopy has been a powerful and  essential tool for analyzing biological structures and  processes due to its noninvasiveness and high molecular  specificity. The spatial resolution of conventional  fluorescence microscopy, however, is limited to about 250  nm by the diffraction of light. In the last decade or so, a  suite of SRM techniques such as stimulated emission  depletion (STED) microscopy, photoactivated localization  microscopy (PALM) and stochastic optical reconstruction  microscopy (STORM), have been invented to circumvent the  diffraction limited spatial resolution of fluorescence  microscopy. Among these, PALM and STORM are both based on  subdiffractive localization of single fluorescent molecules  and are the primary technical basis of the present work.},
      number = {ETD},
      doi = {https://doi.org/10.6083/m4833rk6},
      recid = {7660},
      address = {2017},
}