Nanoparticle Tracking Analysis (NTA) technology, which is one of the first commercially available technologies allowing high-resolution particle size distribution on a number-weighted basis and concentration analyses of submicron particles.
NTA technology employs the following steps:
A highly focused laser passes through a liquid dispersion in a specially designed cell.
As the nanoparticles in the dispersion interact with the laser, they are observed as points of light moving under Brownian motion through a microscope.
The rate at which the particles move is a function of their diffusional rate, which is in turn a function of their size as given by the Stokes-Einstein equation.
By tracking the motion of each particle over a specified amount of time, the diffusional rate can be measured and the particle size calculated.
Since the cell is a known volume and the particles present are individually counted, an accurate particle concentration can be calculated simultaneously.
ASTM E2834-12 describes this innovative technique and provides guidance for industry use.
NanoSight NS300 - Click here for typical sample report.