An accurate estimation of optical absorption coefficient (??abs) and scattering coefficient (??sca) is important in characterizing nanoparticles for identifying or optimizing applications such as photothermal therapy and photoacoustic imaging. In this exciting period where several fascinating methods have been unveiled for the synthesis of various nanoparticles, the field is still lacking in the availability of efficient characterization methods. We introduce an accurate and simple methodology to optically characterize nanoparticles which could fill the gap. This is based on differential pathlength spectroscopy (DPS), a dual optical fiber approach, originally developed to detect cancer endoscopically by measuring the optical properties of t...
Optical absorption spectroscopy of a single metal nanoparticle is used to characterize its propertie...
Using the recent polarized resonance synchronous spectroscopic (PRS2) technique, we reported the qua...
The scattering and absorption of light by nano-objects is a key physical property exploited in many ...
An accurate estimation of optical absorption coefficient (??abs) and scattering coefficient (??sca) ...
An accurate estimation of optical absorption coefficient (mu(abs)) and scattering coefficient (mu(sc...
An accurate estimation of optical absorption coefficient (μabs) and scattering coefficient (μsca) is...
Plasmon resonant nanoparticles such as gold nanoshells and gold nanorods can be tuned to possess sha...
Noble metal nanoparticles have unique localized surface plasmon resonance (LSPR), leading to their s...
The selection of nanoparticles for achieving efficient contrast for biological and cell imaging appl...
The optical properties of metal nanoparticles have garnered researchers ’ interests, since 1800s, ow...
Gold nanorods have interesting optical properties due to surface plasmon resonance effects. A variet...
Gold nanorods have interesting optical properties due to surface plasmon resonance effects. A variet...
Gold nanorods have interesting optical properties due to surface plasmon resonance effects. A variet...
We report on a combined study of Rayleigh and Raman scattering spectroscopy, 3D electron tomography,...
The optical properties of gold in the visible are dominated by the response of the free conduction e...
Optical absorption spectroscopy of a single metal nanoparticle is used to characterize its propertie...
Using the recent polarized resonance synchronous spectroscopic (PRS2) technique, we reported the qua...
The scattering and absorption of light by nano-objects is a key physical property exploited in many ...
An accurate estimation of optical absorption coefficient (??abs) and scattering coefficient (??sca) ...
An accurate estimation of optical absorption coefficient (mu(abs)) and scattering coefficient (mu(sc...
An accurate estimation of optical absorption coefficient (μabs) and scattering coefficient (μsca) is...
Plasmon resonant nanoparticles such as gold nanoshells and gold nanorods can be tuned to possess sha...
Noble metal nanoparticles have unique localized surface plasmon resonance (LSPR), leading to their s...
The selection of nanoparticles for achieving efficient contrast for biological and cell imaging appl...
The optical properties of metal nanoparticles have garnered researchers ’ interests, since 1800s, ow...
Gold nanorods have interesting optical properties due to surface plasmon resonance effects. A variet...
Gold nanorods have interesting optical properties due to surface plasmon resonance effects. A variet...
Gold nanorods have interesting optical properties due to surface plasmon resonance effects. A variet...
We report on a combined study of Rayleigh and Raman scattering spectroscopy, 3D electron tomography,...
The optical properties of gold in the visible are dominated by the response of the free conduction e...
Optical absorption spectroscopy of a single metal nanoparticle is used to characterize its propertie...
Using the recent polarized resonance synchronous spectroscopic (PRS2) technique, we reported the qua...
The scattering and absorption of light by nano-objects is a key physical property exploited in many ...