David A. Boyd, Ph.D.
Selected Publications
  1. Single-Step Deposition of High Mobility Graphene at Reduced Temperature, D. A. Boyd, W.-H. Lin, C.-C. Hsu, M. L. Teague, C.-C. Chen, Y.-Y. Lo, W.-Y. Chan, W.-B. Su, T.-C. Cheng, C.-S. Chang, C.-I. Wu, N.-C. Yeh, Nature Communications (accepted 2-15).

  2. Block Copolymer Lithography of Rhodium Nanoparticles for High Temperature Electrocatalysis, David A. Boyd, Yong Hao, Changyi Li, David G. Goodwin, Sossina M. Haile, ACS Nano, 2013, 7 (6), pp 49194923.

  3. Heterogeneous Catalysis Mediated by Plasmon Heating, James R. Adleman, David A. Boyd, David G. Goodwin, and Demetri Psaltis, Nano Letters, 9 (12), 4417-4423, 2009.

  4. Polymer Sphere Lithography for Solid Oxide Fuel Cells: Fabricating Useful, Well-Defined
    Electrode Structures
    , Evan C. Brown, Stephen K. Wilke, David A. Boyd, David G. Goodwin, and Sossina M. Haile, J. Mater. Chem. 20, 2190-2196 , 2010.

  5. Study Of Sf6 Adsorption On Graphite Using Infrared Spectroscopy, Petros Thomas, Yu Xia,
    David A. Boyd, Todd A. Hopkins, and George B. Hess, Journal of Chemical Physics, Volume 131, Issue 12, pp. 124709-124709-7 (2009) .

  6. Infrared spectroscopic study of C2F6 Monolayers and Bilayers on Graphite, T. A. Hopkins,
    D. A. Boyd, Y. Xia, F. M. Hess, and G. B. Hess, J. Chem. Phys. 128, 154714 (2008).

  7. Chemical Separations by Bubble Assisted Interphase Mass-Transfer, David A. Boyd, James
    Adelman, David Goodwin, and Demetri Psaltis, Analytical Chemistry, 80(7), 2452-2456, 2008.

  8. Plasmon Assisted Chemical Vapor Deposition, D. A. Boyd, L. Greegard, M. Brongersma, M. Y. El-Naggar, and D. G. Goodwin, Nano Letters, October 2006.

  9. In Situ Measurements of Macroscopic Film Stress During Growth, Cooling, and Thermal Cycling of Thin Film PbTiO3, D. A. Boyd, M. Y. El-Naggar, and D. G. Goodwin, Integr. Ferroelectr. 71: 21-28 2005.

  10. Infrared Absorption Study of Physisorbed Carbon Monoxide on Graphite, D. A. Boyd, F. M. Hess, and G. B. Hess, Surf. Sci 519 (1-2): 125-138 2002.