Add to ORKGThe growing interest in using exogenous agents to enhance the subtle differences between optical signatures of normal and cancerous tissue, has spurred the development of novel nanoparticulate agents that exhibit desirable optical responses and at the same time, used to target biomolecular markers of diseases. Gold nanoshells are a class of core-shell nanoparticle, exhibiting an extremely agile peak optical resonance, ranging from the near-ultraviolet to the mid-infrared wavelengths. Although optical properties of gold nanoshells in transmission have already been well documented, the reflectance characteristics have not been elucidated. Yet, in order to use gold nanoshells as a contrast agent for scattering-based optical diagnostic tools, i...
There has been increasing interest in the use of a nanoparticle-based media as a contrast-enhancemen...
Metal nanoshells are a new class of optically tunable core/shell nanoparticles which are finding num...
Abstract: Every living organism on earth owes its viability to its different sizes of nanostructures...
Cancer remains a significant health concern today. It is the 2 nd leading cause of death in the Unit...
Metal nanoparticles can function as optical contrast enhancers for reflectance-based diagnosis of ep...
Several significant applications have been realized for light scattering in biomedical imaging. In o...
Near infrared tuned gold nanoshells have been developed to enhance the contrast of optical coherence...
R ecent advances in nanoscience and biomedicine have expanded our ability to design and construct mu...
The selection of nanoparticles for achieving efficient contrast for biological and cell imaging appl...
WOS:000383259700182International audienceIn this article, we investigate the dependence of the backs...
Metal nanoparticles can be functionalized with biomolecules to selectively localize in precancerous ...
AbstractIn this article, we investigate the dependence of the backscattering properties of gold nano...
textGold nanoshells (GNS) are a new class of nanoparticles that can be optically tuned to scatter or...
This dissertation describes the synthesis of multifunctional gold nanoparticles designed for therapy...
Gold nanoshells consist of a dielectric core surrounded by an ultra thin shell of gold. By adjusting...
There has been increasing interest in the use of a nanoparticle-based media as a contrast-enhancemen...
Metal nanoshells are a new class of optically tunable core/shell nanoparticles which are finding num...
Abstract: Every living organism on earth owes its viability to its different sizes of nanostructures...
Cancer remains a significant health concern today. It is the 2 nd leading cause of death in the Unit...
Metal nanoparticles can function as optical contrast enhancers for reflectance-based diagnosis of ep...
Several significant applications have been realized for light scattering in biomedical imaging. In o...
Near infrared tuned gold nanoshells have been developed to enhance the contrast of optical coherence...
R ecent advances in nanoscience and biomedicine have expanded our ability to design and construct mu...
The selection of nanoparticles for achieving efficient contrast for biological and cell imaging appl...
WOS:000383259700182International audienceIn this article, we investigate the dependence of the backs...
Metal nanoparticles can be functionalized with biomolecules to selectively localize in precancerous ...
AbstractIn this article, we investigate the dependence of the backscattering properties of gold nano...
textGold nanoshells (GNS) are a new class of nanoparticles that can be optically tuned to scatter or...
This dissertation describes the synthesis of multifunctional gold nanoparticles designed for therapy...
Gold nanoshells consist of a dielectric core surrounded by an ultra thin shell of gold. By adjusting...
There has been increasing interest in the use of a nanoparticle-based media as a contrast-enhancemen...
Metal nanoshells are a new class of optically tunable core/shell nanoparticles which are finding num...
Abstract: Every living organism on earth owes its viability to its different sizes of nanostructures...