Resolving multimodal nanoparticle distributions using dynamic light scattering (DLS) coupled with field-flow fractionation (FFF) - 10/18/12

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00:00:00 Resolving multimodal nanoparticle distributions using dynamic light scattering (DLS) coupled with field-flow fractionation (FFF)
00:01:44 Why is Tattoo-Ink so colorful?
00:02:08 Introduction
00:03:27 Field-Flow Fractionation (FFF)
00:03:50 How does FFF work?
00:05:13 How does FFF work?
00:07:33 How does FFF work?
00:07:45 How does FFF work?
00:08:09 The FFF Separation Range
00:09:10 The FFF Platform
00:09:37 Dynamic Light Scattering (DLS)
00:09:59 How does DLS work?
00:11:02 How does DLS work?
00:11:48 Intensity Fluctuations, Correlation Function, Particle Size
00:13:18 Coupling of Field-Flow Fractionation with Dynamic Light scattering
00:13:37 FFF – DLS Coupling
00:14:24 FFF – DLS Coupling
00:15:20 FFF – DLS Coupling
00:16:15 FFF – DLS Coupling
00:16:48 FFF – DLS Coupling
00:17:14 FFF – DLS Coupling
00:18:54 FFF – DLS Coupling
00:19:12 FFF-DLS Coupling
00:20:08 FFF - DLS Coupling
00:22:14 FFF - DLS Coupling
00:24:23 FFF - DLS Coupling
00:25:19 FFF – DLS Coupling
00:26:23 Conclusions
00:26:45 Conclusions
00:27:54 We thank you for your attention and look forward to answering your questions!
00:28:01 Contact Information
The Zetasizer Nano uses Dynamic Light Scattering to provide simple fast measurements of Nanoparticles and biological molecules. Coupling DLS with Field Flow Fractionation increases the resolution to provide a distribution over a wide size range