Publications
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Temperature-dependent size-controlled nucleation and growth of gold nanoclusters. Journal of Physical Chemistry A. 1999 ;103:10255-10259.
. Thermal reshaping of gold nanorods in micelles. Journal of Physical Chemistry B. 1998 ;102:9370-9374.
. 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.
. Tissue Distribution and Efficacy of Gold Nanorods Coupled with Laser Induced Photoplasmonic Therapy in Ehrlich Carcinoma Solid Tumor Model. Plos One. 2013 ;8.
Toxicities and antitumor efficacy of tumor-targeted AuNRs in mouse model. CANCER RESEARCH. 2013 ;73.
. Ultrafast electronic relaxation and charge-carrier localization in CdS/CdSe/CdS quantum-dot quantum-well heterostructures. Nano Letters. 2006 ;6:1940-1949.
. Ultrafast Processes in Chemistry and Photobiology. Blackwell Science; 1995.
. 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.
. On the Use of Plasmonic Nanoparticle Pairs As a Plasmon Ruler: The Dependence of the Near-Field Dipole Plasmon Coupling on Nanoparticle Size and Shape. Journal of Physical Chemistry A. 2009 ;113:1946-1953.
. On the Use of Plasmonic Nanoparticle Pairs As a Plasmon Ruler: The Dependence of the Near-Field Dipole Plasmon Coupling on Nanoparticle Size and Shape. Journal of Physical Chemistry A. 2009 ;113:1946-1953.
. 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
. XAV939: From a Small Inhibitor to a Potent Drug Bioconjugate When Delivered by Gold Nanoparticles. Bioconjugate Chemistry. 2014 ;25:207-215.
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