Publications
Targeting cancer cell integrins using gold nanorods in photothermal therapy inhibits migration through affecting cytoskeletal proteins. Proceedings of the National Academy of Sciences. 2017 .
Targeting heat shock protein 70 using gold nanorods enhances cancer cell apoptosis in low dose plasmonic photothermal therapy. Biomaterials. 2016 .
Treatment of natural mammary gland tumors in canines and felines using gold nanorods-assisted plasmonic photothermal therapy to induce tumor apoptosis. International journal of nanomedicine. 2016 .
. Thermal/Electrochemical Growth and Characterization of One-Dimensional ZnO/TiO2 Hybrid Nanoelectrodes for Solar Fuel Production. Journal of Physical Chemistry C. 2013 ;117:18502-18509.
. Thin to Thick, Short to Long: Spectral Properties of Gold Nanorods by Theoretical Modeling. Journal of Physical Chemistry C. 2013 ;117:18653-18656.
Tissue Distribution and Efficacy of Gold Nanorods Coupled with Laser Induced Photoplasmonic Therapy in Ehrlich Carcinoma Solid Tumor Model. Plos One. 2013 ;8.
. Towards a perfect system for solar hydrogen production: an example of synergy on the atomic scale. SPIE Solar Energy+ Technology. 2013 :88220A-88220A-7.
. Toxicities and antitumor efficacy of tumor-targeted AuNRs in mouse model. CANCER RESEARCH. 2013 ;73.
. TiO(2) Nanotube/CdS Hybrid Electrodes: Extraordinary Enhancement in the Inactivation of Escherichia coli. Journal of the American Chemical Society. 2010 ;132:14406-14408.
. Tamoxifen-Poly(ethylene glycol)-Thiol Gold Nanoparticle Conjugates: Enhanced Potency and Selective Delivery for Breast Cancer Treatment. Bioconjugate Chemistry. 2009 ;20:2247-2253.
. Time-resolved investigation of the acoustic vibration of a single gold nanoprism pair. Journal of Physical Chemistry C. 2008 ;112:11231-11235.
. Thermal properties of bacteriorhodopsin. Journal of Physical Chemistry B. 2003 ;107:12045-12053.
. Thermodynamic and kinetic characterization of the interaction between N-butylamine and similar to 1 nm CdSe nanoparticles. Journal of Physical Chemistry A. 2002 ;106:7621-7627.
. Time-resolved long-lived infrared emission from bacteriorhodopsin during its photocycle. Biophysical Journal. 2002 ;83:1589-1594.
. Transfer times of electrons and holes across the interface in CdS/HgS/CdS quantum dot quantum well nanoparticles. Chemical physics letters [Internet]. 2002 ;361(5-6):446-452. Available from: http://dx.doi.org/10.1016/S0009-2614(02)01001-1
. Transition from nanoparticle to molecular behavior: a femtosecond transient absorption study of a size-selected 28 atom gold cluster. Chemical Physics Letters. 2002 ;356:240-246.
. Temperature-jump investigations of the kinetics of hydrogel nanoparticle volume phase transitions. Journal of the American Chemical Society. 2001 ;123:11284-11289.
. Time-resolved Fourier transform infrared spectroscopy of the polarizable proton continua and the proton pump mechanism of bacteriorhodopsin. Biophysical Journal. 2001 ;80:961-971.
. Temperature jump-induced secondary structural change of the membrane protein bacteriorhodopsin in the premelting temperature region: A nanosecond time-resolved Fourier transform infrared study. Biophysical Journal. 1999 ;76:2777-2783.
. Temperature-dependent size-controlled nucleation and growth of gold nanoclusters. Journal of Physical Chemistry A. 1999 ;103:10255-10259.
. Time-resolved Fourier-transform infrared and visible luminescence spectroscopy of photoexcited porous silicon. Physical Review B. 1999 ;59:5026-5031.
. Thermal reshaping of gold nanorods in micelles. Journal of Physical Chemistry B. 1998 ;102:9370-9374.