Original paper

  • Before 2017

    19. A. Abumazwed, W. Kubo, T. Tanaka, and A. G. Kirk ,”Improved self-referenced biosensing with emphasis on multiple-resonance nanorod sensors”,Optics Express, 25, 24803-24815, 2017.

    18. W. Kubo* “Effect of Au nanoparticles on PCPDTBT:PC71BM device performance with fair comparisons”, Physica Status Solidi A, 214, 1700110-n/a, 2017.

    17. A. Abumazwed, W. Kubo, C. Shen, T. Tanaka, and A. G. Kirk ,”Projection method for improving signal to noise ratio of localized surface plasmon resonance biosensors”, Biomedical Optics Express, 8, 1, 446-459, 2017.

    16. W. Kubo*, Y. Yokota, and T. Tanaka, “Au nanodot lattices with well-controlled in size and density for thin organic solar cells”, Physica Status Solidi-Rapid Research Letters, 9, 348-352, 2015.

    15. L. Olislager, W. Kubo, T. Tanaka, S. Ungureanu, R. A. L. Vallee, B. Kolaric, P. Emplit, and S. Massar, “Propagation and survival of frequency-bin entangled photons in metallic nanostructure”, Nanophotonics, 4, 324-331, 2015.

    14. X. Fang, S.Yaginuma, W. Kubo, T. Tanaka, “Resonance enhancement of difference-frequency generation through localized surface plasmon excitation”Applied Physics Letters, 102, 203101-203103, 2013.

    13. W. Kubo, S. Fujikawa, “Au double nanopillars with nanogap for plasmonic sensor”Nano Letters, 11, 8-15, 2011.[Link]

    12. W. Kubo, H. Hayakawa, K. Miyoshi, S. Fujikawa, “Size-controlled simple fabrication of free-standing, ultralong metal nanobelt array”, Journal of Nanoscience and Nanotechnology, 11, 131-137, 2011.

    11. F. Yang, W. Kubo, N. Sakai, T. Tatsuma, “Acceleration of photocatalytic remote oxidation by deposition of Pt nanoparticles onto TiO<sub>2</sub>Electrochemistry, 78, 161-164, 2010.

    10. W. Kubo, S. Fujikawa, “Manipulation of a One Dimensional Molecular Assembly of Helical Superstructures by Dielectrophoresis”, Applied Physics Letters, 95, 163110-1-3, 2009.

    9. W. Kubo, S. Fujikawa,“Embedding of a Gold Nanofin Array in a Polymer Film to Create Transparent, Flexible and Anisotropic Electrodes”, Journal of Materials Chemistry, 19, 2154-2158, 2009.

    8. T. Tatsuma, W. Kubo, “Photocatalytic lithography based on photocatalytic remote oxidation”, Journal of Photopolymer Science and Technology, 20, 83-86, 2007.

    7. W. Kubo, T. Tatsuma, “Mechanisms of Photocatalytic Remote Oxidation” Journal of the American Chemical Society, 128, 16034-16035, 2006.

    6. W. Kubo, T. Tatsuma, “Photocatalytic remote oxidation with various photocatalysts and enhancement of its activity” Journal of Materials Chemistry, 15, 3104-3108, 2005.

    5. H. Notsu, W. Kubo, S. Shitanda, T. Tatsuma, “Super-hydrophobic/super-hydrophilic patterning of gold surfaces by photocatalytic lithography”, Journal of Materials Chemistry, 15, 1523-1527, 2005.

    4. W. Kubo, T. Tatsuma, “Conversion of a solid surface from super-hydrophobic to super-hydrophilic by photocatalytic remote oxidation and photocatalytic lithography” Applied Surface Science, 243, 125-128, 2005.

    3. W. Kubo, T. Tatsuma, “Detection of H2O2 released from TiO2 photocatalyst to air” Analytical Sciences, 20, 591-593, 2004.

    2. W. Kubo, T. Tatsuma, A. Fujishima, H. Kobayashi, “Mechanisms and Resolution of Photocatalytic Lithography” The Journal of Physical Chemistry B, 108, 3005-3009, 2004.

    1. T. Tatsuma, W. Kubo, A. Fujishima, “Patterning of solid surfaces by photocatalytic lithography based on the remote oxidation effect of TiO<sub>2</sub>” Langmuir, 18, 9632-9634, 2002.