Dr. Pattanawit Swanglap

pattanawit_headshot_199x150
Ph.D. in Chemistry, Rice University (2013)
B.S in Chemistry, Silpakorn University, Thailand

Dissertation

Single Particle Studies on the Influence of the Environment on the Plasmonic Properties of Single and Assembled Gold Nanoparticles of Various Shapes

Publications

  1. S. Dominguez-Medina, S. Chen, L. J. Blankenburg, P. Swanglap, C. F. Landes, and S. Link, Measuring the Hydrodynamic Size of Nanoparticles using Fluctuation Correlation SpectroscopyAnnual Review of Physical Chemistry, 67, 489 (2016).
  2. S. P. Hastings, Z. Qian, P. Swanglap, Y. Fang, N. Engheta, S.-J. Park, S. Link, and Z. Fakhraai, Modal interference in spiky nanoshells, Opt. Express 23, 9, 11290 (2015). 
  3. S. P. Hastings, P. Swanglap, Z. Qian, Y. Fang, S. -J. Park, S. Link, N. Engheta, and Z. Fakhraai, Quadrupole-Enhanced Raman Scattering, ACS Nano 8, 9025 (2014).
  4. L. S. Slaughter, L.-Y. Wang, B. A. Willingham, J. M. Olson, P. Swanglap, S. Dominguez-Medina and S. Link, Plasmonic polymers unraveled through single particle spectroscopy, Nanoscale 4, 11451 (2014).
  5. J. Olson, P. Swanglap, W.-S. Chang, S. Khatua, D. Solis, S. Link, Detailed mechanism for the orthogonal polarization switching of gold nanorod plasmons, Phys. Chem. Chem. Phys. 15, 419 (2013).
  6. D. Solis, A. Paul, J. Olson, L. S. Slaughter, P. Swanglap, W.-S. Chang, and S. Link, Turning the Corner: Efficient Energy Transfer in Bent Plasmonic Nanoparticle Chain Waveguides, Nano Lett. 13, 4779 (2013). 
  7. D. Solis, Jr., B. Willingham, S. L. Nauert, L. S. Slaughter, J. Olson, P. Swanglap, W.-S. Chang, S. Link, Electromagnetic Energy Transport in Nanoparticle Chains via Dark Plasmon Mode,. Nano Lett. 12, 1349 (2012). 
  8. B. L. Sanchez-Gaytan, P. Swanglap, T. J. Lamkin, Z. Fakhraai, S. Link, S.-J. Park, Synthesis and Optical Properties of Spiky Gold Nanoshells, J. Phys. Chem. C 116, 10318 (2012).
  9. W.-S. Chang, B. Willingham, L. S. Slaughter, S. Dominguez-Medina, P. Swanglap, S. Link, Radiative and Nonradiative Properties of Single Plasmonic Nanoparticles and Their Assemblies, Acc. Chem. Res. 45, 1936 (2012). 
  10. S. Dominguez-Medina, S. McDonough, P. Swanglap, C. F. Landes, S. Link, In situ measurement of bovine serum albumin interaction with gold nanospheres, Langmuir 28, 9131 (2012).
  11. Y. Fang, W.-S. Chang, B. Willingham, P. Swanglap, S. Dominguez-Medina, S. Link, Plasmon emission quantum yield of single gold nanorods as a function of aspect ratio, ACS Nano 6, 7177 (2012). 
  12. W.-S. Chang, J. B. Lassiter, P. Swanglap, H. Sobhani, S. Khatua, P. Nordlander, N. J. Halas, S. Link, A Plasmonic Fano SwitchNano Lett. 12, 4977 (2012).
  13. P. Swanglap, L. S. Slaughter, W.-S. Chang, B. Willingham, B. P. Khanal, E. R. Zubarev, S. Link, Seeing double: Coupling between substrate image charges and collective plasmon modes in self-assembled nanoparticle superstructures, ACS Nano 5, 4892 (2011).
  14. A. Tcherniak, S. Dominguez-Medina, W.-S. Chang, P. Swanglap, L. S. Slaughter, C. F. Landes, S. Link, One-photon plasmon luminescence and its application to correlation spectroscopy as a probe for rotational and translational dynamics of gold nanorods, J. Phys. Chem. C 115, 15938 (2011).
  15. S. Khatua, W.-S. Chang, P. Swanglap, J. Olson, S. Link, Active Modulation of Nanorod Plasmons, Nano Lett. 11, 3797 (2011). 
  16. L. S. Slaughter, W.-S. Chang, P. Swanglap, A. Tcherniak, B. P. Khanal, E. R. Zubarev, S. Link, Single-particle spectroscopy of gold nanorods beyond the quasi-static limit: Varying the width at constant aspect ratio, J. Phys. Chem. C 114, 4934 (2010).