| 00:00:00 | Dynamic Light Scattering (DLS) |
| 00:01:33 | Outline |
| 00:02:08 | Optics |
| 00:02:56 | Scattering Volume |
| 00:03:17 | Static Intensity |
| 00:03:45 | Dynamic Intensity |
| 00:04:20 | Non-Random Dynamic Intensity |
| 00:04:53 | Physical Constraints |
| 00:06:07 | Correlation Statistics |
| 00:07:11 | Correlation Curves |
| 00:08:40 | Hydrodynamic Size |
| 00:10:25 | Typical Analysis Algorithms |
| 00:17:02 | Ideal Samples |
| 00:18:24 | Typical Samples |
| 00:20:40 | So What’s The Best Answer? |
| 00:21:48 | Data Interpretation Tips - I |
| 00:28:57 | Data Interpretation Tips - II |
| 00:31:57 | Data Interpretation Tips - III |
| 00:38:54 | Data Interpretation Tips - IV |
| 00:40:42 | Working Examples |
| 00:40:52 | Number Fluctuations |
| 00:45:12 | Random Noise - Fast Delay Times |
| 00:54:31 | Run Time Effects |
| 00:57:32 | Random Baseline Noise |
| 01:00:29 | Determinant Noise |
| 01:03:33 | Random Noise - Fast Delay Times |
| 01:04:36 | Random Baseline Noise |
| 01:04:50 | Molecular Weight Effects |
| 01:10:34 | Cumulants vs. CONTIN |
| 01:12:55 | CONTIN vs. NNLS |
| 01:20:24 | Problems With Volume Distributions |
| 01:23:59 | Measurement Tips |
| 01:26:35 | Customer Training |
| 01:28:55 | Why Malvern Instruments? |
| 01:30:14 | Contact Information |
The Zetasizer Nano uses the ISO recommended Cumulants approach to measure the mean sample size and polydispersity index from dynamic light scattering measurements to ensure compliance with international standards