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The biologics researcher's guide to DLS

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24 The ACF decay function changes as a function of the size of the particles in solution. As seen on Page 25, two components come into play here: 1) The intensity of light scattered by a particle at a given angle; and 2) The speed at which your particle is moving, thus how quickly the intensity fluctuates Size affects both intensity and movement— remember that smaller particles move more quickly, so there is more fluctuation; however they do not scatter as intensely, so the absolute intensity is lower. ACF ACF fit The autocorrelation function is obtained from the measurement of the signal intensity over time. It is a plot that shows how the signal changes relative to itself over time. The autocorrelation function fit is the mathematical function that describes the decay rate of the ACF signal. It allows the so ware to extract a decay rate, which is directly related to diffusion coefficient D. With this information and the Stokes-Einstein equation, the hydrodynamic radius, r H is calculated.

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