Publications
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Gold Nanoframes: Very High Surface Plasmon Fields and Excellent Near-Infrared Sensors. Journal of the American Chemical Society. 2010 ;132:12704-12710.
. Enhancing Colloidal Metallic Nanocatalysis: Sharp Edges and Corners for Solid Nanoparticles and Cage Effect for Hollow Ones. Acc Chem Res. 2013 .
. High-Frequency Mechanical Stirring Initiates Anisotropic Growth of Seeds Requisite for Synthesis of Asymmetric Metallic Nanoparticles like Silver Nanorods. Nano Letters. 2013 ;13:4739-4745.
. Time Dependence and Signs of the Shift of the Surface Plasmon Resonance Frequency in Nanocages Elucidate the Nanocatalysis Mechanism in Hollow Nanoparticles. Nano Letters. 2011 ;11:946-953.
. Comparative study of the assemblies and the resulting plasmon fields of Langmuir-Blodgett assembled monolayers of silver nanocubes and gold nanocages. Journal of Physical Chemistry C. 2008 ;112:14618-14625.
. Effect of the Dielectric Constant of the Surrounding Medium and the Substrate on the Surface Plasmon Resonance Spectrum and Sensitivity Factors of Highly Symmetric Systems: Silver Nanocubes. Journal of the American Chemical Society. 2012 ;134:6434-6442.
. Wavelength-Selective Photocatalysis Using Gold–Platinum Nanorattles. The Journal of Physical Chemistry C [Internet]. 2015 ;119:18618-18626. Available from: http://dx.doi.org/10.1021/acs.jpcc.5b05967
. 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.
. Determining the Mechanism of Solution Metallic Nanocatalysis with Solid and Hollow Nanoparticles: Homogeneous or Heterogeneous. Journal of Physical Chemistry C. 2013 ;117:21886-21893.
. 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.
. A new catalytically active colloidal platinum nanocatalyst: The multiarmed nanostar single crystal. Journal of the American Chemical Society. 2008 ;130:4590-+.
. Shape- and Symmetry-Dependent Mechanical Properties of Metallic Gold and Silver on the Nanoscale. Nano Letters. 2014 ;14:743-748.
. Experimental Evidence For The Nanocage Effect In Catalysis With Hollow Nanoparticles. Nano Letters. 2010 ;10:3764-3769.
. Different Methods of Increasing the Mechanical Strength of Gold Nanocages. Journal of Physical Chemistry Letters. 2012 ;3:3527-3531.
. Hollow and Solid Metallic Nanoparticles in Sensing and in Nanocatalysis. Chemistry of Materials. 2013 ;26:44-58.
. Following Charge Separation on the Nanoscale in Cu(2)O-Au Nanoframe Hollow Nanoparticles. Nano Letters. 2011 ;11:3285-3289.
. The Most Effective Gold Nanorod Size for Plasmonic Photothermal Therapy: Theory and In Vitro Experiments. Journal of Physical Chemistry B. 2014 ;118:1319-1326.
. Chemosensitization of Cancer Cells via Gold Nanoparticle‐Induced Cell Cycle Regulation. Photochemistry and photobiology. 2014 ;90:306-312.
. Inducing Cancer Cell Death by Targeting Its Nucleus: Solid Gold Nanospheres versus Hollow Gold Nanocages. Bioconjugate Chemistry. 2013 ;24:897-906.
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