Add to ORKGThe measurement of optical extinction is used to determine the size of nearly spherical gold nanoparticles suspended in solution, produced by a 'reverse micelles' process. The contrast between the maximum and the minimum in the extinction spectra around 450 and 520 nm shows a linear dependence with the mean radius of the gold particles less than 3 nm; however, the method can be used to size particles up to 7 nm. Experimental results for extinction spectra can be fitted by Mie's theory if the optical constants from bulk material values are modified by introducing the limitation of the mean free path due to collisions of conduction electrons with the boundary of the nanoparticles
We present a wide-field imaging technique recently developed by us to measure quantitatively the opt...
Extinction at 400 nm is a convenient, cheap, and fast method for in situ determination of Au concent...
We present a wide-field imaging technique recently developed by us to measure quantitatively the opt...
The measurement of optical extinction is used to determine the size of nearly spherical gold nanopar...
The measurement of optical extinction is used to determine the size of nearly spherical gold nanopar...
The measurement of optical extinction is used to determine the size of nearly spherical gold nanopar...
This work presents a method, based on measurements of the optical extinction spectra, to determine t...
In this paper, we explore the ability of extinction spectroscopy to characterize colloidal suspensio...
In this paper, we explore the ability of extinction spectroscopy to characterize colloidal suspensio...
The extinction spectra of spherical gold nanoparticles suspended in a homogeneous media were measure...
Extinction coefficients of gold nanoparticles with core size ranging from ∼4 to 40 nm were determine...
Extinction coefficients of gold nanoparticles with core size ranging from ∼4 to 40 nm were determine...
Extinction coefficients of gold nanoparticles with core size ranging from similar to 4 to 40 nm were...
This paper reports on physical principles and the relations between extinction cross section and ge...
We present a wide-field imaging technique recently developed by us to measure quantitatively the opt...
We present a wide-field imaging technique recently developed by us to measure quantitatively the opt...
Extinction at 400 nm is a convenient, cheap, and fast method for in situ determination of Au concent...
We present a wide-field imaging technique recently developed by us to measure quantitatively the opt...
The measurement of optical extinction is used to determine the size of nearly spherical gold nanopar...
The measurement of optical extinction is used to determine the size of nearly spherical gold nanopar...
The measurement of optical extinction is used to determine the size of nearly spherical gold nanopar...
This work presents a method, based on measurements of the optical extinction spectra, to determine t...
In this paper, we explore the ability of extinction spectroscopy to characterize colloidal suspensio...
In this paper, we explore the ability of extinction spectroscopy to characterize colloidal suspensio...
The extinction spectra of spherical gold nanoparticles suspended in a homogeneous media were measure...
Extinction coefficients of gold nanoparticles with core size ranging from ∼4 to 40 nm were determine...
Extinction coefficients of gold nanoparticles with core size ranging from ∼4 to 40 nm were determine...
Extinction coefficients of gold nanoparticles with core size ranging from similar to 4 to 40 nm were...
This paper reports on physical principles and the relations between extinction cross section and ge...
We present a wide-field imaging technique recently developed by us to measure quantitatively the opt...
We present a wide-field imaging technique recently developed by us to measure quantitatively the opt...
Extinction at 400 nm is a convenient, cheap, and fast method for in situ determination of Au concent...
We present a wide-field imaging technique recently developed by us to measure quantitatively the opt...