摘要
In this paper, an image dynamic light scattering method for nanoparticle sizing is introduced. The spatial distribution of the scattered lights from nanoparticles undergoing Brownian motion was captured at a high frame rate by a digital camera within one second, which is considerably faster than the conven- tional photon correlation spectroscopy method. The captured series of photographs were meshed into thousands of small units for calculating the intensity autocorrelation functions in parallel. Experimental results from the measurements of three reference nanoparticle samples (27, 80, and 352 nm in diameters) demonstrated the feasibility of this method.
In this paper, an image dynamic light scattering method for nanoparticle sizing is introduced. The spatial distribution of the scattered lights from nanoparticles undergoing Brownian motion was captured at a high frame rate by a digital camera within one second, which is considerably faster than the conven- tional photon correlation spectroscopy method. The captured series of photographs were meshed into thousands of small units for calculating the intensity autocorrelation functions in parallel. Experimental results from the measurements of three reference nanoparticle samples (27, 80, and 352 nm in diameters) demonstrated the feasibility of this method.
基金
supported by the Specialized Research Fund for the Doctoral Program of Higher Education of China (20113120130001)
the Nanotech Initiative Project of Shanghai Science and Technology Commission(11 nm0507100)
the Innovation Fund Project For Graduate Student of Shanghai (JWCXSL1401)
