Video recording of freely diffusing 200nm polystyrene nanoparticles using dark field microscopy

<p>Dark field recording of 200nm polystyrene (Kisker Biotech PPs-02) particles which were diluted in essentially particle-free double distilled H2O. The temperature was 25 °C. The concentration was amounted to approximately 3x10^9 ml.</p> <p>The video file was captured with a PCO Edge CCD camera at 30 FPS mounted on a Olympus BX51 microscope (100-fold oil immersion objective) which was illuminated with a CytoViva dark field oil condenser. The pixel size of the video is 63nm.</p> <p>Please note that the video is splitted into mutiple archives. Please download all archives to get the full video.</p> <p><strong>This video is part of a  puplication:</strong></p> <p><strong>Wagner, T., Lipinski, H.-G. & Wiemann, M., 2014. Dark field nanoparticle tracking analysis for size characterization of plasmonic and non-plasmonic particles. Journal of Nanoparticle Research, 16(5), p.2419. Available at: http://link.springer.com/10.1007/s11051-014-2419-x</strong></p

Video recording of freely diffusing 100nm polystyrene nanoparticles using dark field microscopy

<p>Dark field recordings of 100nm polystyrene (Kisker Biotech PPs-01) particles which were diluted in essentially particle-free double distilled H2O. The temperature was 24 °C. The concentration was amounted to approximately 3x10^9 ml.</p> <p>The video file was captured with a PCO Edge CCD camera at 30 FPS mounted on a Olympus BX51 microscope (100-fold oil immersion objective) which was illuminated with a CytoViva dark field oil condenser. The video pixel size is 63nm.</p> <p>Please note that the video is splitted into mutiple archives. Please download all archives to get the full video.</p> <p><strong>This video is part of a puplication:</strong></p> <p><strong>Wagner, T., Lipinski, H.-G. & Wiemann, M., 2014. Dark field nanoparticle tracking analysis for size characterization of plasmonic and non-plasmonic particles. Journal of Nanoparticle Research, 16(5), p.2419. Available at: http://link.springer.com/10.1007/s11051-014-2419-x</strong></p> <p> </p

NanoTrackJ: Size characterization of freely diffusing nanoparticles by nanoparticle tracking

<p>NanoTrackJ is an ImageJ Plugin to characterize the size of nanoparticles in a liquid suspension. It analyzes videos of diffraction patterns of nanoparticles and track the change in position of each diffraction pattern to estimate the size via stokes-einstein.</p> <p>It is developed and maintained by Thorsten Wagner ([email protected]) of the Biomedical Imaing Group at the University of Applied Sciences Dortmund.</p> <p><strong>This site is part of a puplication:</strong></p> <p><strong>Wagner, T., Lipinski, H.-G. & Wiemann, M., 2014. Dark field nanoparticle tracking analysis for size characterization of plasmonic and non-plasmonic particles. Journal of Nanoparticle Research, 16(5), p.2419. Available at: http://link.springer.com/10.1007/s11051-014-2419-x</strong></p> <p><strong><br></strong></p> <p><strong>How to install</strong></p> <p> 1. Download the NanoTrackJ.zip</p> <p> 2. Unzip the file</p> <p> 3. Copy the NanoTrackJ_.jar file to th ImageJ/Plugins folder</p> <p> 4. Copy all files in jars folder to the Image/Plugins/jars folder</p> <p>5. Restart ImageJ</p> <p><strong><br>Newer Versions and the documentation of NanoTrackJ can found on:</strong></p> <p><strong>https://sourceforge.net/projects/nanotrackj/</strong></p> <p> </p> <p> </p