Publications
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Gold nanoparticles: interesting optical properties and recent applications in cancer diagnostic and therapy. Nanomedicine. 2007 ;2:681-693.
. Gold nanoparticles propulsion from surface fueled by absorption of femtosecond laser pulse at their surface plasmon resonance. Journal of the American Chemical Society. 2006 ;128:13330-13331.
. Gold Nanoparticles Surface Plasmon Field Effects on the Proton Pump Process of the Bacteriorhodopsin Photosynthesis. Journal of the American Chemical Society. 2009 ;131:2442-+.
. Gold nanorod assisted near-infrared plasmonic photothermal therapy (PPTT) of squamous cell carcinoma in mice. Cancer Letters. 2008 ;269:57-66.
. Gold Nanorods: From Synthesis and Properties to Biological and Biomedical Applications. Advanced Materials. 2009 ;21:4880-4910.
. Growth and fragmentation of silver nanoparticles in their synthesis with a fs laser and CW light by photo-sensitization with benzophenone. Photochemical & Photobiological Sciences. 2005 ;4(1):154-159.
. High-density femtosecond transient absorption spectroscopy of semiconductor nanoparticles. A tool to investigate surface quality. Pure and Applied Chemistry. 2000 ;72:165-177.
. Homogeneous Line Width of the Different Vibronic Bands of Retinal Absorption in Bacteriorhodopsin by the Hole-Burning Technique. The Journal of Physical Chemistry [Internet]. 1996 ;100(8):2762 - 2765. Available from: http://dx.doi.org/10.1021/jp952971k
. Hot electron and phonon dynamics of gold nanoparticles embedded in a gel matrix. Chemical Physics Letters. 2001 ;343:55-63.
. Hot electron relaxation dynamics of gold nanoparticles embedded in MgSO4 powder compared to solution: The effect of the surrounding medium. Journal of Physical Chemistry B. 2002 ;106:945-955.
. How does a gold nanorod melt?. Journal of Physical Chemistry B. 2000 ;104:7867-7870.
. How long does it take to melt a gold nanorod? A femtosecond pump-probe absorption spectroscopic study. Chemical Physics Letters. 1999 ;315:12-18.
. Influence of Steam Treatment on Dye-Titania Complex Formation and Photoelectric Conversion Property of Dye-Doped Titania Gel. Journal of Physical Chemistry C. 2011 ;115:2880-2887.
. Interfacial carriers dynamics of CdS nanoparticles. Journal of Physical Chemistry A. 1998 ;102:5652-5658.
. Kinetically controlled growth and shape formation mechanism of platinum nanoparticles. Abstracts of Papers of the American Chemical Society. 1998 ;215:U176-U176.
. Kinetics of the M-Intermediate in the Photocycle of Bacteriorhodopsin upon Chemical Modification with Surfactants. Photochemistry and Photobiology. 2010 ;86:316-323.
. Laser Multiphoton Dissociation Ionization of Acrolein Clusters. The Journal of Physical Chemistry A [Internet]. 1997 ;101(20):3699 - 3701. Available from: http://dx.doi.org/10.1021/jp9605010
. Laser photothermal melting and fragmentation of gold nanorods: Energy and laser pulse-width dependence. Journal of Physical Chemistry A. 1999 ;103:1165-1170.
. Laser-induced shape changes of colloidal gold nanorods using femtosecond and nanosecond laser pulses. Journal of Physical Chemistry B. 2000 ;104:6152-6163.
. The 'lightning' gold nanorods: fluorescence enhancement of over a million compared to the gold metal. Chemical Physics Letters. 2000 ;317:517-523.
. Low-temperature retinal photoisomerization dynamics in bacteriorhodopsin. Journal of Physical Chemistry B. 1998 ;102:2303-2306.
. On the Mechanism of the Plasmonic Field Enhancement of the Solar-to-Electric Energy Conversion by the Other Photosynthetic System in Nature (Bacteriorhodopsin): Kinetic and Spectroscopic Study. Journal of Physical Chemistry C. 2010 ;114:15358-15363.
. Medium effect on the electron cooling dynamics in gold nanorods and truncated tetrahedra. Advanced Materials. 2003 ;15:393-+.
. Model system for growing and quantifying Streptococcus pneumoniae biofilms in situ and in real time. Applied and Environmental Microbiology. 2004 ;70:4980-4988.
. Molecular Mechanism of the Differential Photoelectric Response of Bacteriorhodopsin. The Journal of Physical Chemistry B [Internet]. 1997 ;101(17):3420 - 3423. Available from: http://dx.doi.org/10.1021/jp962111j
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