Publications

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Logunov SL, Song L, EL-Sayed MA. pH Dependence of the Rate and Quantum Yield of the Retinal Photoisomerization in Bacteriorhodopsin. The Journal of Physical Chemistry [Internet]. 1994 ;98(42):10674 - 10677. Available from: http://dx.doi.org/10.1021/j100093a003
Logunov SL, Volkov VV, Braun M, EL-Sayed MA. The relaxation dynamics of the excited electronic states of retinal in bacteriorhodopsin by two-pump-probe femtosecond studies. Proceedings of the National Academy of Sciences of the United States of America. 2001 ;98:8475-8479.
Logunov SL, Ahmadi TS, EL-Sayed MA, Khoury JT, Whetten RL. Electron Dynamics of Passivated Gold Nanocrystals Probed by Subpicosecond Transient Absorption Spectroscopy. The Journal of Physical Chemistry B [Internet]. 1997 ;101(19):3713 - 3719. Available from: http://dx.doi.org/10.1021/jp962923f
Logunov SL, Green TC, Marguet S, EL-Sayed MA. Interfacial carriers dynamics of CdS nanoparticles. Journal of Physical Chemistry A. 1998 ;102:5652-5658.
Logunov SL, EL-Sayed MA, Lanyi JK. Catalysis of the retinal subpicosecond photoisomerization process in acid purple bacteriorhodopsin and some bacteriorhodopsin mutants by chloride ions. Biophysical journal. 1996 ;71(3):1545-53.
Logunov SL, EL-Sayed MA. Redetermination of the Quantum Yield of Photoisomerization and Energy Content in the K-Intermediate of Bacteriorhodopsin Photocycle and Its Mutants by the Photoacoustic Technique. The Journal of Physical Chemistry B [Internet]. 1997 ;101(33):6629 - 6633. Available from: http://dx.doi.org/10.1021/jp970955c
Logunov SL, Masciangioli TM, EL-Sayed MA. Quantitative determination of the protein catalytic efficiency for the retinal excited-state decay in bacteriorhodopsin. Journal of Physical Chemistry B. 1998 ;102:8109-8112.
Little RB, EL-Sayed MA, Bryant GW, Burke S. Formation of quantum-dot quantum-well heteronanostructures with large lattice mismatch: ZnS/CdS/ZnS. Journal of Chemical Physics. 2001 ;114:1813-1822.
Little RB, Burda C, Link S, Logunov SL, EL-Sayed MA. Charge separation effects on the rate of nonradiative relaxation processes in quantum dots quantum well heteronanostructures. Journal of Physical Chemistry A. 1998 ;102:6581-6584.
Lisunova M, Mahmoud M, Holland N, Combs ZA, El-Sayed MA, Tsukruk VV. 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.
Link S, EL-Sayed MA. Shape and size dependence of radiative, non-radiative and photothermal properties of gold nanocrystals. International Reviews in Physical Chemistry. 2000 ;19:409-453.
Link S, EL-Sayed MA. Spectroscopic determination of the melting energy of a gold nanorod. Journal of Chemical Physics. 2001 ;114:2362-2368.
Link S, Burda C, Nikoobakht B, EL-Sayed MA. How long does it take to melt a gold nanorod? A femtosecond pump-probe absorption spectroscopic study. Chemical Physics Letters. 1999 ;315:12-18.
Link S, Beeby A, FitzGerald S, EL-Sayed MA, Schaaff TG, Whetten RL. Visible to infrared luminescence from a 28-atom gold cluster. Journal of Physical Chemistry B. 2002 ;106:3410-3415.
Link S, Wang ZL, EL-Sayed MA. Alloy formation of gold-silver nanoparticles and the dependence of the plasmon absorption on their composition. Journal of Physical Chemistry B. 1999 ;103:3529-3533.
Link S, Mohamed MB, EL-Sayed MA. Simulation of the Optical Absorption Spectra of Gold Nanorods as a Function of Their Aspect Ratio and the Effect of the Medium Dielectric Constant. The Journal of Physical Chemistry B [Internet]. 1999 ;103(16):3073 - 3077. Available from: http://dx.doi.org/10.1021/jp990183f
Link S, Wang ZL, EL-Sayed MA. How does a gold nanorod melt?. Journal of Physical Chemistry B. 2000 ;104:7867-7870.
Link S, Burda C, Wang ZL, EL-Sayed MA. Electron dynamics in gold and gold-silver alloy nanoparticles: The influence of a nonequilibrium electron distribution and the size dependence of the electron-phonon relaxation. Journal of Chemical Physics. 1999 ;111:1255-1264.
Link S, EL-Sayed MA. Room temperature optical gain in CdSe nanorod solutions. Journal of Applied Physics. 2002 ;92:6799-6803.
Link S, EL-Sayed MA. Simulation of the Optical Absorption Spectra of Gold Nanorods as a Function of Their Aspect Ratio and the Effect of the Medium Dielectric Constant. The Journal of Physical Chemistry B [Internet]. 2005 ;109(20):10531 - 10532. Available from: http://dx.doi.org/10.1021/jp058091f
Link S, EL-Sayed MA. Size and temperature dependence of the plasmon absorption of colloidal gold nanoparticles. Journal of Physical Chemistry B. 1999 ;103:4212-4217.
Link S, EL-Sayed MA, Schaaff TG, Whetten RL. 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.
Link S, EL-Sayed MA. Optical Properties and Ultrafast Dynamics of Metalic Naocrystals. Annual Review of Physical Chemistry [Internet]. 2003 ;54(1):331 - 366. Available from: http://dx.doi.org/10.1146/annurev.physchem.54.011002.103759
Link S, Burda C, Mohamed MB, Nikoobakht B, EL-Sayed MA. Femtosecond transient-absorption dynamics of colloidal gold nanorods: Shape independence of the electron-phonon relaxation time. Physical Review B. 2000 ;61:6086-6090.
Link S, EL-Sayed MA. Spectral properties and relaxation dynamics of surface plasmon electronic oscillations in gold and silver nanodots and nanorods. Journal of Physical Chemistry B. 1999 ;103:8410-8426.

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