Plasmon photocatalysis

Optical waveguides – Optical waveguide sensor

Reexamination Certificate

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C385S122000, C385S123000, C385S147000, C250S227110, C250S227140, C250S227180, C250S288000, C356S246000, C356S300000, C356S301000, C359S240000, C359S244000, C359S290000, C359S296000, C204S403100

Reexamination Certificate

active

11496766

ABSTRACT:
Plasmons on a waveguide may deliver energy to photocatalyze a reaction. The waveguide or other energy carrier may be configured to carry electromagnetic energy and generate plasmon energy at one or more locations proximate to the waveguide, where the plasmon energy may react chemically with a medium or interaction material.

REFERENCES:
patent: 4481091 (1984-11-01), Brus et al.
patent: 5327225 (1994-07-01), Bender et al.
patent: 5439652 (1995-08-01), Sczechowski et al.
patent: 5606633 (1997-02-01), Groger et al.
patent: 5825799 (1998-10-01), Ho et al.
patent: 5858799 (1999-01-01), Yee et al.
patent: 6421128 (2002-07-01), Salamon et al.
patent: 6539156 (2003-03-01), Dickson et al.
patent: 6970490 (2005-11-01), Holmes et al.
patent: 2002/0117157 (2002-08-01), Stephan et al.
patent: 2003/0209972 (2003-11-01), Holmes et al.
patent: 2005/0164169 (2005-07-01), Malak
patent: 2005/0237602 (2005-10-01), Yanagisawa
Barnes, William L.; Dereux, Alain; and Ebbesen, Thomas W.; “Surface Plasmon Subwavelength Optics,” Nature: Insight Review Articles; Aug. 14, 2003; pp. 824-830; vol. 424.
Barnes, W.L.; Murray , W.A.; Dintinger, J.; Devaux, E.; and Ebbesen, T.W.; “Surface Plasmon Polaritons and Their Role in the Enhanced Transmission of Light Through Periodic Arrays of Subwavelength Holes In a Metal Film,” Physical Review Letters; Mar. 9, 2004; pp. 107401-1-107401-4; vol. 92; No. 10.
Bearinger, J.P.; Hiddessen, A.L.; Wu, K.J.J.; Christian, A.T.; Dugan, L.C.; Stone, G. Camarero, J.; Hinz, A.K. and Hubbell, J.A.; “Biomolecular Patterning via Photocatalytic Lithography”; Lawrence Livermore National Laboratory hosting Nanotech 2005 in Anaheim, California; May 8, 2005-May 12, 2005; document bearing a date of Mar. 2, 2005; pp. 1-6.
Degiron, A. and Ebbesen, T.W.; “The Role of Localized Surface Plasmon Modes in the Enhanced Transmission of Periodic Subwavelength Apertures,” Journal of Optics A: Pure Applied Optics; Jan. 20, 2005; pp. S90-S96; vol. 7, Institute of Physics Publishing Ltd.
Fujishima, Akira; “Discovery and Applications of Photocatalysis—Creating a Comfortable Future by Making Use of Light Energy,” Japan Nanonet Bulletin; May 12, 2005; Issue 44; pp. 1-3; Nanotechnology Researchers Network Center of Japan; located at http://www.nanonet.go.jp/english/mailmag/2005/044a.html and printed on Jul. 19, 2005.
Hohng, S.C.; Yoon, Y.C.; Kim, D.S.; Malyarchuk, V.; Müller, R.; Lienau, CH.; Park, J.W.; Yoo, K.H.; Kim, J.; Ryu, H.Y .; and Park, Q.H.; “Light Emission From the Shadows: Surface Plasmon Nano-Optics At Near and Far Fields,” Applied Physics Letters; Oct. 21, 2002, pp. 3239-3241; vol. 81; No. 17; American Institute of Physics.
Homola, Ji{hacek over (r)}{hacek over (i)}; Yee, Sinclair S.; and Gauglitz, Günter; “Surface Plasmon Resonance Sensors: Review,” Sensors and Actuators B; bearing a date of 1999; pp. 3-15; vol. 54; Elsevier Science S.A.; printed on Jul. 19, 2005.
Kamat, Prashant V.; “Photoinduced Transformation in Semiconductor—Metal Nanocomposite Assemblies,” IUPAC Pure Appl. Chem.; bearing a date of 2002; pp. 1693-1706; vol. 74; No. 9; IUPAC; printed on Jul. 19, 2005.
Kaneko; Masao; Okura; Ichiro; “Photocatalysis,” Springer Biophysics: Science & Technology; 2003; 1 page printed (Book contains 244 pages total); ISBN: 3-540-43473-9; page located at http://www.springeronline.com; page printed on Jul. 19, 2005.
Kik, Pieter G.; Martin, Andrea L.; Maier, Stefan A.; and Atwater, Harry A.; “Metal Nanoparticle Arrays For Near Field Optical Lithography,” Proceedings of SPIE 200, pp. 1-7; vol. 4810; printed on Jul. 19, 2005.
Kittel, Charles; “Introduction to Solid State Physics, 8thEdition”; Nov. 2004; 1 page printed (book contains 704 pages total); John Wiley & Sons, Inc.; ISBN: 0-471-41526-X; page located at http://www.wiley.com; page printed on Jul. 19, 2005.
Kottman, Jörg P. and Martin, Olivier J.F.; “Plasmon Resonant Coupling in Metallic Nanowires,” Optics Express; Jun. 4, 2001, pp. 655-663; vol. 8, No. 12.
Lee, Jae P. and Sung, Myung M.; “A New Patterning Method Using Photocatalytic Lithography and Selective Atomic Layer Deposition,” Journal of the American Chemical Society; Jan. 14, 2004; bearing dates of Sep. 28, 2003 and Dec. 12, 2003; pp. 28-29; vol. 126; No. 1.
Lopez, R.; Boatner, L.A.; Haynes, T.E.; Feldman, L.C.; and Haglund, Jr., R.F.; “Synthesis and Characterization of Size-Controlled Vanadium Dioxide Nanocrystals in a Fused Silica Matrix,” Journal of Applied Physics; Oct. 1, 2002; pp. 4031-4036; vol. 92; No. 7; American Institute of Physics.
Maier, Stefan A.; Barclay, Paul E.; Johnson, Thomas J.; Friedman, Michelle D.; and Painter, Oskar; “Low-Loss Fiber Accessible Plasmon Waveguide for Planar Energy Guiding and Sensing,” Applied Physics Letters; May 17, 2004; pp. 3990-3992; vol. 84; No. 20; American Institute of Physics.
Maier, Stefan A.; Brongersma, Mark L.; Kik, Pieter G.; and Atwater, Harry A.; “Observation of Near-Field Coupling in Metal Nanoparticle Chains Using Far-Field Polarization Spectroscopy,” Physical Review B; pp. 193408-1-193408-4; vol. 65; The American Physical Society.
Nikolajsen, Thomas; Leosson, Kristjan; Salakhutdinov, Ildar; and Bozhevolnyi, Sergey I.; “Polymer-Based Surface-Plasmon-Polariton Stripe Waveguides at Telecommunication Wavelengths,” Applied Physics Letters; Feb. 3, 2003; bearing dates of Sep. 18, 2002 and Dec. 10, 2002; pp. 668-670; vol. 82; No. 5; American Institute of Physics.
Podolskiy, Viktor A.; Sarychev, Andrey K.; and Shalaev, Vladimir M.; “Plasmon Modes and Negative Refraction in Metal Nanowire Composites,” Optics Express; Apr. 7, 2003; bearing dates of Feb. 10, 2003 and Mar. 31, 2003; pp. 735-745; vol. 11, No. 7; OSA.
Podolskiy, Viktor A.; Sarychev, Andrey K.; Narimanov, Evgenii E.; and Shalaev, Vladimir M.; “Resonant Light Interaction with Plasmonic Nanowire Systems,” Journal of Optics A: Pure Applied Optics; Jan. 20, 2005; bearing dates of Jun. 3, 2004 and Oct. 6, 2004; pp. S32-S37; vol. 7; Institute of Physics Publishing Ltd.
Rice, Charles V. and Raftery, Daniel; “Photocatalytic Oxidation of Trichloroethylene Using TiO2Coated Optical Microfibers,” Chem. Commun.; bearing dates of Dec. 21, 1998 and Apr. 9, 1999; pp. 895-896.

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