Publications Prior to UM

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Postdoctoral Research: 2007 – 2009 W. E. Moerner Lab Stanford University

  • J.S. Biteen, E.D. Goley, L. Shapiro and W.E. Moerner, “Three-Dimensional Super-Resolution Imaging of the Midplane Protein FtsZ in Live Caulobacter crescentus Cells Using Astigmatism.” ChemPhysChem, 13 1007-1012 (2012). DOI
  • J.S. Biteen, L. Shapiro and W.E. Moerner, “Exploring Protein Superstructures and Dynamics in Live Bacterial Cells Using Single-Molecule and Superresolution Imaging.” Methods in Molecular Biology, 783 139-158 (2011). DOI
  • J.S. Biteen and W.E. Moerner, “Live-cell single-molecule and superresolution imaging of proteins in bacteria.” SPIE Proceedings, 7905 79050Q (2011). DOI
  • J.S. Biteen and W.E. Moerner, “Single-Molecule and Superresolution Imaging in Live Bacteria Cells.” Cold Springs Harbor Perspectives in Biology, 2 a000448 (2010). DOI
  • M.A. Thompson, J.S. Biteen, S.J. Lord, N.R. Conley and W.E. Moerner, “Molecules and Methods for Super-resolution Imaging.” Methods in Enzymology, 475 27-59 (2010). DOI
  • S.R.P. Pavani, M.A. Thompson, J.S. Biteen, S.J. Lord, N. Liu, R.J. Twieg, R. Piestun and W.E. Moerner, “Three-dimensional, single-molecule fluorescence imaging beyond the diffraction limit by using a double-helix point spread function.” Proceedings of the National Academy of Sciences, 106 2995-2999 (2009). DOI
  • J.S. Biteen, M.A. Thompson, N.K. Tselentis, L. Shapiro and W.E. Moerner, “Superresolution Imaging in Live Caulobacter crescentus Cells Using Photoswitchable Enhanced Yellow Fluorescent Protein.” SPIE Proceedings, 7185 71850I (2009). DOI
  • J.S. Biteen, M.A. Thompson, N.K. Tselentis, G.R. Bowman, L. Shapiro and W.E. Moerner, “Super-resolution imaging in live Caulobacter crescentus cells using photoswitchable EYFP.” Nature Methods, 5 947-949 (2008). DOI
  • N.R. Conley, J.S. Biteen and W.E. Moerner, “Cy3-Cy5 Covalent Heterodimers for Single-Molecule Photoswitching.” Journal of Physical Chemistry B, 112 11878-11880 (2008). DOI

Graduate Research: 2001 – 2006 Harry Atwater and Nate Lewis Groups California Institute of Technology

  • M.C. Traub, J.S. Biteen, B.S. Brunschwig and N.S. Lewis, “Passivation of GaAs nanocrystals by chemical functionalization.” Journal of the American Chemical Society, 130 955-964 (2008). DOI
  • M.C. Traub, J.S. Biteen, D.J. Michalak, L.J. Webb, B.S. Brunschwig and N.S. Lewis, “Phosphine Functionalization of GaAs(111)A Surfaces.” Journal of Physical Chemistry C, 112 18467-18473 (2008). DOI
  • J.S. Biteen, L.A. Sweatlock, H. Mertens, N.S. Lewis, H.A. Atwater and A. Polman, “Plasmon-Enhanced Photoluminescence of Silicon Quantum Dots: Simulation and Experiment.” Journal of Physical Chemistry C, 111 13372-13377 (2007). DOI
  • H. Mertens, A. Polman, J.S. Biteen and H.A. Atwater, “Polarization-Selective Plasmon-Enhanced Silicon Quantum Dot Luminescence.” Nano Letters, 6 2622-2625 (2006). DOI
  • L.J. Webb, D.J. Michalak, J.S. Biteen, B.S. Brunschwig, A.S.Y. Chan, D.W. Knapp, H.M. Meyer, E.J. Nemanick, M.C. Traub and N.S. Lewis, “High-resolution soft X-ray photoelectron spectroscopic studies and scanning auger microscopy studies of the air oxidation of alkylated silicon(111) surfaces.” Journal of Physical Chemistry B, 110 23450-23459 (2006). DOI
  • J.S. Biteen, N.S. Lewis, H.A. Atwater, H. Mertens and A. Polman, “Spectral tuning of plasmon-enhanced silicon quantum dot luminescence.” Applied Physics Letters, 88 131109 (2006). DOI
  • M.C. Traub, J.S. Biteen, D.J. Michalak, L.J. Webb, B.S. Brunschwig and N.S. Lewis, “High-resolution X-ray photoelectron spectroscopy of chlorine-terminated GaAs(111)A surfaces.” Journal of Physical Chemistry B, 110 15641-15644 (2006). DOI
  • J.S. Biteen, D. Pacifici, N.S. Lewis and H.A. Atwater, “Enhanced radiative emission rate and quantum efficiency in coupled silicon nanocrystal-nanostructured gold emitters.” Nano Letters, 5 1768-1773 (2005). DOI
  • A.L. Tchebotareva, M.J.A. de Dood, J.S. Biteen, H.A. Atwater and A. Polman, “Quenching of Si Nanocrystal Photoluminescence by Doping with Gold or Phosphorus.” Journal of Luminescence, 114 137-144 (2005). DOI
  • L.J. Webb, E.J. Nemanick, J.S. Biteen, D.W. Knapp, D.J. Michalak, M.C. Traub, A.S.Y. Chan, B.S. Brunschwig and N.S. Lewis, “High-resolution X-ray photoelectron spectroscopic studies of alkylated silicon(111) surfaces.” Journal of Physical Chemistry B, 109 3930-3937 (2005). DOI
  • J.S. Biteen, N.S. Lewis, H.A. Atwater and A. Polman, “Size-dependent oxygen-related electronic states in silicon nanocrystals.” Applied Physics Letters, 84 5389-5391 (2004). DOI
  • J.S. Biteen, A.L. Tchebotareva, A. Polman, N.S. Lewis and H.A. Atwater, “Controlled passivation and luminescence blue shifts of isolated silicon nanocrystals.” MRS Proceedings, 770 93-98 (2003). DOI

Undergraduate Research: 1999 – 2001 Herschel Rabitz Group Princeton University

  • J.S. Biteen, J.M. Geremia and H. Rabitz, “Closed-loop quantum control utilizing time domain maps.” Chemical Physics, 290 35-45 (2003). DOI
  • J.S. Biteen, J.M. Geremia and H. Rabitz, “Quantum optimal quantum control field design using logarithmic maps.” Chemical Physics Letters, 348 440-446 (2001). DOI