Publications
Metallic Double Shell Hollow Nanocages: The Challenges of Their Synthetic Techniques. Langmuir. 2012 ;28:4051-4059.
. Nano and Molecular Science and Technology Special Issue Honoring Paul Barbara. Accounts of Chemical Research. 2012 [cited 2014/06/26AD];45:1842-1843.
. Nanocatalysts Can Change the Number of Electrons Involved in Oxidation-Reduction Reaction with the Nanocages Being the Most Efficient. Journal of Physical Chemistry C. 2012 ;116:24171-24176.
. Properties of pi-Conjugated Fluorescence Polymer-Plasmonic Nanoparticles Hybrid Materials. Journal of Physical Chemistry C. 2012 ;116:13336-13342.
. Size matters: gold nanoparticles in targeted cancer drug delivery. Ther. Delivery. 2012 ;3:457-478.
. Small Molecule-Gold Nanorod Conjugates Selectively Target and Induce Macrophage Cytotoxicity towards Breast Cancer Cells. Small. 2012 ;8:2819-2822.
. The unusual fluorescence intensity enhancement of poly(p-phenyleneethynylene) polymer separated from the silver nanocube surface by H-bonded LbL shells. Journal of Materials Chemistry. 2012 ;22:16745-16753.
. Following Charge Separation on the Nanoscale in Cu(2)O-Au Nanoframe Hollow Nanoparticles. Nano Letters. 2011 ;11:3285-3289.
. Plasmonic Enhancement of Nonradiative Charge Carrier Relaxation and Proposed Effects from Enhanced Radiative Electronic Processes in Semiconductor-Gold Core-Shell Nanorod Arrays. Journal of Physical Chemistry C. 2011 ;115:5578-5583.
. Plasmonic Field Effects on the Energy Transfer between Poly(p-phenyleneethynylene) Fluorescent Polymer and Au Nanocages. Journal of Physical Chemistry C. 2011 ;115:12726-12735.
. . . Comparative study of photothermolysis of cancer cells with nuclear-targeted or cytoplasm-targeted gold nanospheres: continuous wave or pulsed lasers. Journal of Biomedical Optics. 2010 ;15.
. Experimental Evidence For The Nanocage Effect In Catalysis With Hollow Nanoparticles. Nano Letters. 2010 ;10:3764-3769.
. Gold Nanoframes: Very High Surface Plasmon Fields and Excellent Near-Infrared Sensors. Journal of the American Chemical Society. 2010 ;132:12704-12710.
. Plasmonic Field Enhancement of the Exciton-Exciton Annihilation Process in a Poly(p-phenyleneethynylene) Fluorescent Polymer by Ag Nanocubes. Journal of the American Chemical Society. 2010 ;132:2633-2641.
. Polystyrene Microspheres: Inactive Supporting Material for Recycling and Recovering Colloidal Nanocatalysts in Solution. Journal of Physical Chemistry Letters. 2010 ;1:28-31.
. Surface Plasmon Fields and Coupling in the Hollow Gold Nanoparticles and Surface-Enhanced Raman Spectroscopy. Theory and Experiment. Journal of Physical Chemistry C. 2010 ;114:7436-7443.
. Aggregation of Gold Nanoframes Reduces, Rather Than Enhances, SERS Efficiency Due to the Trade-Off of the Inter- and Intraparticle Plasmonic Fields. Nano Letters. 2009 ;9:3025-3031.
. The Dependence of the Plasmon Field Induced Nonradiative Electronic Relaxation Mechanisms on the Gold Shell Thickness in Vertically Aligned CdTe-Au Core-Shell Nanorods. Nano Letters. 2009 ;9:3772-3779.
. Exciton Lifetime Tuning by Changing the Plasmon Field Orientation with Respect to the Exciton Transition Moment Direction: CdTe-Au Core-Shell Nanorods. Nano Letters. 2009 ;9:1242-1248.
. Photocatalysis in Gold Nanocage Nanoreactors. Journal of Physical Chemistry A. 2009 ;113:4340-4345.
. The sensitivity of the energy band gap to changes in the dimensions of the CdSe quantum rods at room temperature: STM and theoretical studies. Chemical Physics Letters. 2009 ;473:288-292.
. Surface-Enhanced Raman Scattering Enhancement by Aggregated Silver Nanocube Monolayers Assembled by the Langmuir-Blodgett Technique at Different Surface Pressures. Journal of Physical Chemistry C. 2009 ;113:5493-5501.
. Tamoxifen-Poly(ethylene glycol)-Thiol Gold Nanoparticle Conjugates: Enhanced Potency and Selective Delivery for Breast Cancer Treatment. Bioconjugate Chemistry. 2009 ;20:2247-2253.
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