Publications
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. Antiandrogen Gold Nanoparticles Dual-Target and Overcome Treatment Resistance in Hormone-Insensitive Prostate Cancer Cells. Bioconjugate Chemistry. 2012 ;23:1507-1512.
. Antiandrogen Gold Nanoparticles Dual-Target and Overcome Treatment Resistance in Hormone-Insensitive Prostate Cancer Cells. Bioconjugate Chemistry. 2012 ;23:1507-1512.
. 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.
. Detecting and Destroying Cancer Cells in More than One Way with Noble Metals and Different Confinement Properties on the Nanoscale. Accounts of Chemical Research. 2012 ;45:1854-1865.
. The effect of low and high temperature anneals on the hydrogen content and passivation of Si surface coated with SiO2 and SiN films. Journal of the Electrochemical Society. 1999 ;146:1921-1924.
. Effect of the lattice crystallinity on the electron-phonon relaxation rates in gold nanoparticles. Journal of Physical Chemistry C. 2007 ;111:10751-10757.
. Gold nanorod assisted near-infrared plasmonic photothermal therapy (PPTT) of squamous cell carcinoma in mice. Cancer Letters. 2008 ;269:57-66.
. Gold nanorod assisted near-infrared plasmonic photothermal therapy (PPTT) of squamous cell carcinoma in mice. Cancer Letters. 2008 ;269:57-66.
. Gold Nanorod-Photothermal Therapy Alters Cell Junctions and Actin Network in Inhibiting Cancer Cell Collective Migration. ACS nano. 2018 .
. The golden age: gold nanoparticles for biomedicine. Chemical Society Reviews. 2012 ;41:2740-2779.
. Improving the Flow Cytometry-based Detection of the Cellular Uptake of Gold Nanoparticles. Analytical chemistry. 2019 .
. Model system for growing and quantifying Streptococcus pneumoniae biofilms in situ and in real time. Applied and Environmental Microbiology. 2004 ;70:4980-4988.
. Multimodal plasmon coupling in low symmetry gold nanoparticle pairs detected in surface-enhanced Raman scattering. Applied Physics Letters. 2011 ;98.
. A new catalytically active colloidal platinum nanocatalyst: The multiarmed nanostar single crystal. Journal of the American Chemical Society. 2008 ;130:4590-+.
. Observation of optical gain in solutions of CdS quantum dots at room temperature in the blue region. Applied Physics Letters. 2006 ;88.
. The optical, photothermal, and facile surface chemical properties of gold and silver nanoparticles in biodiagnostics, therapy, and drug delivery. Archives of Toxicology. 2014 :1-27.
. Plasmon Field Effects on the Nonradiative Relaxation of Hot Electrons in an Electronically Quantized System: CdTe−Au Core−Shell Nanowires. Nano Letters [Internet]. 2008 ;8(8):2410 - 2418. Available from: http://dx.doi.org/10.1021/nl801303g
. 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.
. Probing the primary event in the photocycle of photoactive yellow protein using photochemical hole-burning technique. Photochemistry and Photobiology. 2000 ;72:639-644.
. Pronounced Effects of Anisotropy on Plasmonic Properties of Nanorings Fabricated by Electron Beam Lithography. Nano Letters. 2012 ;12:2158-2164.
. P‐Glycoprotein‐Dependent Trafficking of Nanoparticle‐Drug Conjugates. Small. 2014 ;10:1719-1723.
. Self-Standing Crystalline TiO(2) Nanotubes/CNTs Heterojunction Membrane: Synthesis and Characterization. Acs Applied Materials & Interfaces. 2011 ;3:952-955.
. Size matters: gold nanoparticles in targeted cancer drug delivery. Ther. Delivery. 2012 ;3:457-478.
. Size-dependent ultrafast electronic energy relaxation and enhanced fluorescence of copper nanoparticles. Journal of Physical Chemistry B. 2006 ;110:143-149.