Publications
. Crystallographic facets and shapes of gold nanorods of different aspect ratios. Surface Science. 1999 ;440:L809-L814.
. “Cubic” Colloidal Platinum Nanoparticles. Chemistry of Materials [Internet]. 1996 ;8(6):1161 - 1163. Available from: http://dx.doi.org/10.1021/cm9601190
. Cytotoxic effects of cytoplasmic-targeted and nuclear-targeted gold and silver nanoparticles in HSC-3 cells–A mechanistic study. Toxicology in Vitro. 2015 ;29:694–705.
. Dark-field light scattering imaging of living cancer cell component from birth through division using bioconjugated gold nanoprobes. Journal of Biomedical Optics [Internet]. 2010 ;15:046025. Available from: http://dx.doi.org/10.1117/1.3477179
. Defect engineering in 1D Ti–W oxide nanotube arrays and their correlated photoelectrochemical performance. Physical Chemistry Chemical Physics. 2018 .
. Delivery of molecules into cells using carbon nanoparticles activated by femtosecond laser pulses. Nature Nanotechnology. 2010 ;5:607-611.
. Dependence of the enhanced optical scattering efficiency relative to that of absorption for gold metal nanorods on aspect ratio, size, end-cap shape, and medium refractive index. Journal of Physical Chemistry B. 2005 ;109:20331-20338.
. The Dependence of the Plasmon Field Induced Nonradiative Electronic Relaxation Mechanisms on the Gold Shell Thickness in Vertically Aligned CdTe-Au Core-Shell Nanorods. Nano Letters. 2009 ;9:3772-3779.
. 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.
Design of Hybrid Electrochromic Materials with Large Electrical Modulation of Plasmonic Resonances. ACS Applied Materials & Interfaces. 2016 .
. Detecting and Destroying Cancer Cells in More than One Way with Noble Metals and Different Confinement Properties on the Nanoscale. Accounts of Chemical Research. 2012 ;45:1854-1865.
. Detection of a Yb3+ binding site in regenerated bacteriorhodopsin that is coordinated with the protein and phospholipid head groups. Proceedings of the National Academy of Sciences of the United States of America. 1996 ;93(25):14333-7.
. Determination of the aspect ratio statistical distribution of gold nanorods in solution from a theoretical fit of the observed inhomogeneously broadened longitudinal plasmon resonance absorption spectrum. Journal of Applied Physics. 2006 ;100.
. Determination of the localization times of electrons and holes in the HgS well in a CdS/HgS/CdS quantum dot–quantum well nanoparticle. Physical Review BPhys. Rev. B [Internet]. 2002 ;66(20):205312 - . Available from: http://link.aps.org/doi/10.1103/PhysRevB.66.205312
. Determination of the minimum temperature required for selective photothermal destruction of cancer cells with the use of immunotargeted gold nanoparticles. Photochemistry and Photobiology. 2006 ;82:412-417.
. Determining the Mechanism of Solution Metallic Nanocatalysis with Solid and Hollow Nanoparticles: Homogeneous or Heterogeneous. Journal of Physical Chemistry C. 2013 ;117:21886-21893.
. Different Methods of Increasing the Mechanical Strength of Gold Nanocages. Journal of Physical Chemistry Letters. 2012 ;3:3527-3531.
. Different Plasmon Sensing Behavior of Silver and Gold Nanorods. Journal of Physical Chemistry Letters. 2013 ;4:1541-1545.
. Direct observation of charge-transfer dynamics in a conjugated conducting polymer poly (3-octylthiophene)-fullerene composite by time-resolved infrared spectroscopy. Physical Review B. 2001 ;64.
. Dual-excitation nanocellulose-plasmonic membranes for molecular and cellular SERS detection. ACS applied materials & interfaces. 2018 .
Dual-Responsive Reversible Plasmonic Behavior of Core–Shell Nanostructures with pH-Sensitive and Electroactive Polymer Shells. Chemistry of Materials. 2016 .
. Dynamics of Formation and Evaporation of Mixed Alkali Halide Nanocrystals: A Case of Comparable Lattice Energies. The Journal of Physical Chemistry [Internet]. 1994 ;98(44):11316 - 11320. Available from: http://dx.doi.org/10.1021/j100095a013
. Effect of Binding of Lanthanide Ions on the Bacteriorhodopsin Hexagonal Structure: An X-ray Study. The Journal of Physical Chemistry [Internet]. 1996 ;100(29):12002 - 12007. Available from: http://dx.doi.org/10.1021/jp960741f
. Effect of catalysis on the stability of metallic nanoparticles: Suzuki reaction catalyzed by PVP-palladium nanoparticles. Journal of the American Chemical Society. 2003 ;125:8340-8347.
. Effect of catalytic activity on the metallic nanoparticle size distribution: Electron-transfer reaction between Fe(CN)(6) and thiosulfate ions catalyzed by PVP-platinum nanoparticles. Journal of Physical Chemistry B. 2003 ;107:12416-12424.