| 00:00:00 | Welcome |
| 00:03:08 | Particle Sizing Masterclass 2Which technique is right for me? |
| 00:03:25 | Particle Sizing Masterclass |
| 00:04:30 | Overview |
| 00:05:37 | Considerations for choosing a particle sizing technique |
| 00:06:05 | Particle Size Range |
| 00:07:07 | Particle Size Range |
| 00:07:35 | Distribution Type |
| 00:10:33 | Accuracy and Precision |
| 00:13:05 | Sample Form |
| 00:14:12 | Dispersion State |
| 00:15:25 | Dispersion State |
| 00:16:03 | Dispersion State |
| 00:16:43 | Dispersion State |
| 00:17:11 | Overview of particle sizing techniques |
| 00:17:51 | Laser Diffraction: Basics |
| 00:20:43 | Laser Diffraction: Analysis |
| 00:22:41 | Laser Diffraction |
| 00:25:13 | Automated Image Analysis |
| 00:26:40 | Automated Image Analysis: Results |
| 00:27:22 | Automated Image Analysis: Results |
| 00:29:00 | Automated Image Analysis |
| 00:31:47 | Sieving |
| 00:32:32 | Sieving |
| 00:34:25 | Sedimentation |
| 00:35:31 | Sedimentation: Particle size analysis |
| 00:36:34 | Sedimentation |
| 00:38:23 | Measuring Particle Size Using Brownian Motion |
| 00:38:23 | Brownian motion: Stokes Einstein equation |
| 00:39:47 | Nanoparticle Tracking Analysis |
| 00:40:20 | Nanoparticle Tracking Analysis: Particle Sizing |
| 00:40:48 | Nanoparticle Tracking Analysis |
| 00:42:15 | Dynamic Light Scattering: Particle sizing |
| 00:43:39 | Dynamic Light Scattering |
| 00:45:14 | Resonant Mass Measurement |
| 00:46:06 | Resonant Mass Measurement |
| 00:47:34 | Resonant Mass Measurement |
| 00:48:48 | Technique comparison |
| 00:49:04 | Particle Size Range |
| 00:49:56 | Dispersion State |
| 00:51:20 | Summary |
| 00:52:16 | Thank you for your attentionAny questions?Please type your questions in using the Q&A panel on the right side of your screen |
| 00:59:55 | Contact Information |
| 01:01:13 | Untitled |
In the second webinar in the particle size masterclass series, we follow on from why you need to measure particle size, covered in the first masterclass, by looking at how to measure particle size. We started with considerations for choosing a particle sizing technique, such as the size range, resolution and suitability for different sample types. Then we presented an overview of techniques such as laser diffraction, automated imaging, dynamic light scattering, nanoparticle tracking analysis and their relative strengths. You should then be in a good position to choose the most appropriate particle sizing technique for your application.
Why attend?
- Learn more about the range of particle sizing techniques available
- Gain a basic understanding of how different particle sizing technologies work
- Find out how to select the most suitable particle sizing technique for your material