記録された日時: October 18 2012

Duration: 56 minutes 06 seconds

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
Table of contents
1. Resolving multimodal nanoparticle distributions using dynamic light scattering (DLS) coupled with field-flow fractionation (FFF)
01:44
2. Why is Tattoo-Ink so colorful?
00:24
3. Introduction
01:19
4. Field-Flow Fractionation (FFF)
00:23
5. How does FFF work?
01:23
6. How does FFF work?
02:20
7. How does FFF work?
00:12
8. How does FFF work?
00:24
9. The FFF Separation Range
01:01
10. The FFF Platform
00:27
11. Dynamic Light Scattering (DLS)
00:22
12. How does DLS work?
01:03
13. How does DLS work?
00:46
14. Intensity Fluctuations, Correlation Function, Particle Size
01:30
15. Coupling of Field-Flow Fractionation with Dynamic Light scattering
00:19
16. FFF – DLS Coupling
00:47
17. FFF – DLS Coupling
00:56
18. FFF – DLS Coupling
00:55
19. FFF – DLS Coupling
00:33
20. FFF – DLS Coupling
00:26
21. FFF – DLS Coupling
01:40
22. FFF – DLS Coupling
00:18
23. FFF-DLS Coupling
00:56
24. FFF - DLS Coupling
02:06
25. FFF - DLS Coupling
02:09
26. FFF - DLS Coupling
00:56
27. FFF – DLS Coupling
01:04
28. Conclusions
00:22
29. Conclusions
01:09
30. We thank you for your attention and look forward to answering your questions!
00:07
31. Contact Information
28:05