In the field of nanotechnology, understanding the three-dimensional structure of particles at a near-atomic level is crucial. The file serves as a vital piece of visual evidence for a study published in ACS Materials Au , showcasing the structural integrity and morphology of nanoparticles. The Science Behind the Video
The particles featured in the "jena.mp4" file are typically used in biomedical applications, such as targeted drug delivery or as contrast agents in MRIs. By using the data captured in this video, researchers can verify that the synthesized particles meet the exact geometric requirements for safe and effective use in the human body. Where to Find More
The imaging was performed in Jena , a German city renowned for its historical and modern expertise in optics and photonics (home to institutions like the Friedrich Schiller University Jena ). Significance of the Research
This rotation allows scientists to create a 3D model of the nanoparticles, providing insights into their surface area and volume.
The file is a scientific supplementary video associated with research on iron oxide nanoparticles . It specifically features Cryo-TEM (Cryogenic Transmission Electron Microscopy) images recorded in Jena, Germany.
The video displays a "tilt series," where the sample is rotated every 2° from 0° to +30°.
In the field of nanotechnology, understanding the three-dimensional structure of particles at a near-atomic level is crucial. The file serves as a vital piece of visual evidence for a study published in ACS Materials Au , showcasing the structural integrity and morphology of nanoparticles. The Science Behind the Video
The particles featured in the "jena.mp4" file are typically used in biomedical applications, such as targeted drug delivery or as contrast agents in MRIs. By using the data captured in this video, researchers can verify that the synthesized particles meet the exact geometric requirements for safe and effective use in the human body. Where to Find More jena.mp4
The imaging was performed in Jena , a German city renowned for its historical and modern expertise in optics and photonics (home to institutions like the Friedrich Schiller University Jena ). Significance of the Research By using the data captured in this video,
This rotation allows scientists to create a 3D model of the nanoparticles, providing insights into their surface area and volume. The file is a scientific supplementary video associated
The file is a scientific supplementary video associated with research on iron oxide nanoparticles . It specifically features Cryo-TEM (Cryogenic Transmission Electron Microscopy) images recorded in Jena, Germany.
The video displays a "tilt series," where the sample is rotated every 2° from 0° to +30°.