| 00:00:00 | DLS goes on-line – new solution for nanoparticle sizing |
| 00:00:59 | DLS goes on-line – new solution for nanoparticle sizing |
| 00:01:20 | Light scattering for on-line sizing... |
| 00:01:53 | Laser diffraction |
| 00:02:04 | Laser diffraction |
| 00:02:34 | Laser diffraction analysis |
| 00:03:05 | Scattering Models: Mie Theory |
| 00:03:43 | Scattering Models: Mie Theory |
| 00:04:11 | Scattering Models: Mie Theory |
| 00:04:22 | In-process Laser Diffraction |
| 00:05:15 | Dynamic Light Scattering |
| 00:05:40 | Dynamic Light Scattering (DLS) 0.6 – 6000nm |
| 00:06:39 | Correlation |
| 00:06:53 | Correlation |
| 00:06:57 | Correlation |
| 00:07:02 | Correlation |
| 00:07:04 | Correlation |
| 00:07:11 | Correlation |
| 00:07:17 | Correlation Functions |
| 00:07:38 | Correlation Functions |
| 00:07:59 | Parameters Obtained |
| 00:09:25 | DLS vs. LD |
| 00:14:24 | Dynamic Light Scattering On-Line |
| 00:14:31 | Zetasizer Nano platform |
| 00:15:02 | On-line nanoparticle sizing system |
| 00:16:48 | On-line nanoparticle sizing system |
| 00:17:17 | On-line nanoparticle sizing system - lab scale |
| 00:18:03 | On-line nanoparticle sizing system - lab scale |
| 00:19:09 | On-line nanoparticle sizing system - lab scale |
| 00:20:37 | On-line nanoparticle sizing system - lab scale |
| 00:22:40 | On-line nanoparticle sizing system - lab scale |
| 00:23:15 | On-line nanoparticle sizing |
| 00:23:46 | On-line nanoparticle sizing |
| 00:25:22 | On-line nanoparticle sizing |
| 00:26:15 | Summary |
| 00:28:02 | Summary |
| 00:42:35 | Contact Information |
This webinar will introduce a new solution for on-line nano particle analysis using Dynamic Light Scattering (DLS). Developed for the purpose of monitoring production of nano scale emulsions and suspensions, this system enables the user to perform frequent, automatic particle size measurements during development or on the manufacturing floor while simplifying method transfer from laboratory DLS to on-line. Applied as a PAT tool in Pharmaceutical processes such as high shear homogenization or emulsification, this technology enables the user to monitor the progress of a batch and detect the end point. For continuous manufacturing the technology offers potential means of optimizing the process parameters to improve product quality and consistency.