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Publications: Optical point spread function fitting

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P.B. Joshi, T.P. Anthony, A.J. Wilson, K.A. Willets.  “Imaging out-of-plane polarized emission patterns on gap mode SERS substrates: from high molecular coverage to the single molecule regime.”  Faraday Discussions.  205, 245 (2017).

K.L. Blythe, E.J. Titus, K.A. Willets.  “Comparing the accuracy of reconstructed image size in super-resolution imaging of fluorophore-labeled gold nanorods using different fit models.”  J. Phys. Chem. C., DOI: 10.1021/acs.jpcc.5b04993.

K.L. Blythe, E.J. Titus, and K.A. Willets. “Objective-induced point spread function aberrations and their impact on super-resolution microscopy.” Anal. Chem. 87 (12), 6419-6424 (2015).

K.A. Willets.  “Plasmon point spread functions: how do we model plasmon-mediated emission processes?” Invited perspective, Frontiers of Physics, 9, 3-16 (2014).

E.J. Titus and K.A. Willets.  “Super-localization surface-enhanced Raman scattering microscopy: comparing point spread function models in the ensemble and single molecule limits.”  ACS Nano, 7, 8284-8294 (2013).

E.J. Titus and K.A. Willets.  “Accuracy of super-localization imaging using Gaussian and dipole emission point-spread functions for modeling gold nanorod luminescence.”  ACS Nano, 7, 6258-6267 (2013).

S.M. Stranahan, E.J. Titus, K.A. Willets.  “Discriminating nanoparticle dimers from higher order aggregates through wavelength-dependent SERS orientational imaging.” ACS Nano. 6, 1806-1813 (2012).

S.M. Stranahan, E.J. Titus, K.A. Willets.  “SERS orientational imaging of silver nanoparticle dimers.”  J. Phys. Chem. Lett.  2, 2711–2715 (2011).
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Willets Lab
Department of Chemistry
College of Science and Technology
Temple University