Publications
Plasmonic gold nanoparticles: Optical manipulation, imaging, drug delivery and therapy. Journal of Controlled Release. 2019 .
. Spectral diffusion within the porous silicon emission wavelength range on the nanosecond to millisecond time scale . J. Appl. Phys.Journal of Applied Physics [Internet]. 1997 ;82(2):836. Available from: http://dx.doi.org/10.1063/1.365781
. Primary step in bacteriorhodopsin photosynthesis: Bond stretch rather than angle twist of its retinal excited-state structure. Journal of the American Chemical Society. 1998 ;120:8889-8890.
. The pH dependence of the subpicosecond retinal photoisomerization process in bacteriorhodopsin: evidence for parallel photocycles. Biophysical journal. 1994 ;67(5):2008-12.
. Application of liquid waveguide to Raman spectroscopy in aqueous solution. Applied Spectroscopy. 1998 ;52:1364-1367.
. Retinal Isomer Composition in Some Bacteriorhodopsin Mutants under Light and Dark Adaptation Conditions. The Journal of Physical Chemistry [Internet]. 1995 ;99(24):10052 - 10055. Available from: http://dx.doi.org/10.1021/j100024a056
. Effect of Changing the Position and Orientation of Asp85 Relative to the Protonated Schiff Base within the Retinal Cavity on the Rate of Photoisomerization in Bacteriorhodopsin. The Journal of Physical Chemistry [Internet]. 1996 ;100(24):10479 - 10481. Available from: http://dx.doi.org/10.1021/jp960734r
. The Last Step in Converting the Surface Plasmonic Energy into Heat by Nanocages and Nanocubes on Substrates. Small. 2013 ;9:3934-3938.
. Some recent developments in photoelectrochemical water splitting using nanostructured TiO2: a short review. Theoretical Chemistry Accounts. 2012 ;131.
. Electronic and Vibrational Dynamics of Hollow Au Nanocages Embedded in Cu2O Shells. Photochemistry and Photobiology [Internet]. 2015 ;91:599–606. Available from: http://dx.doi.org/10.1111/php.12432
. 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.
. Dependence of the threshold energy of femtosecond laser ejection of gold nanoprisms from quartz substrates on the nanoparticle environment. Journal of Physical Chemistry C. 2007 ;111:8934-8941.
. Effect of Orientation on Plasmonic Coupling between Gold Nanorods. Acs Nano. 2009 ;3:3670-3678.
. The sensitivity of the energy band gap to changes in the dimensions of the CdSe quantum rods at room temperature: STM and theoretical studies. Chemical Physics Letters. 2009 ;473:288-292.
. Femtosecond excitation dynamics in gold nanospheres and nanorods. Physical Review B. 2005 ;72.
. Relative enhancement of ultrafast emission in gold nanorods. The Journal of Physical Chemistry B [Internet]. 2003 ;107(14):3101-3104. Available from: http://dx.doi.org/10.1021/jp0341265
. Optical rotation of the second harmonic radiation from retinal in bacteriorhodopsin monomers in Langmuir-Blodgett film: evidence for nonplanar retinal structure. Biophysical journal. 1997 ;73(6):3164-70.
. Time-resolved long-lived infrared emission from bacteriorhodopsin during its photocycle. Biophysical Journal. 2002 ;83:1589-1594.
. Steps, ledges and kinks on the surfaces of platinum nanoparticles of different shapes. Surface science. 1997 ;380(2-3):302-310.
. Surface reconstruction of the unstable 110 surface in gold nanorods. Journal of Physical Chemistry B. 2000 ;104:5417-5420.
. The effect of metal cation binding on the protein, lipid and retinal isomeric ratio in regenerated bacteriorhodopsin of purple membrane. Photochemistry and Photobiology. 2001 ;73:564-571.
. 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.
. Refolding of thermally denatured bacteriorhodopsin in purple membrane. Journal of Physical Chemistry B. 2002 ;106:723-729.
. Rapid Thermal Tuning of Chromophore Structure in Membrane Protein. Journal of Physical Chemistry B. 2009 ;113:4184-4186.
. Temperature-jump investigations of the kinetics of hydrogel nanoparticle volume phase transitions. Journal of the American Chemical Society. 2001 ;123:11284-11289.
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