A three-dimensional electron diffraction dataset was collected from a biotin crystal with the Rio camera.
OneView camera + Latitude D for MicroED/3DED
A three-dimensional electron diffraction dataset was collected from a ZSM-5 crystal collected with the OneView camera and Latitude D software. Diffraction patterns were recorded at 0.5° intervals collected over 100°. The cumulative dose was ∼2 e-/Å2.
Metro camera for MicroED/3DED
A three-dimensional electron diffraction dataset was collected with the Metro camera from a PPEA crystalline sample (courtesy of Dr. Tatiana Gorelik).
K3 camera for MicroED/3DED
Counted three-dimensional electron diffraction dataset from a ZSM-5 crystal collected with the K3® camera. Diffraction patterns were recorded at 0.5° intervals collected over 10°. The cumulative dose was ∼0.5 e-/Å2
Stela camera for MicroED/3DED
(left) A complete three-dimensional electron diffraction dataset from an acetaminophen microcrystal was acquired with a Stela® camera. (right) reciprocal space. Data was processed by Dr. Dos Reis at Northwestern University. Stela utilizes DECTRIS hybrid-pixel technology.
High-Speed Counting EELS at low kV with GIF Continuum K3 with Stela
Reciprocal space reconstructed from continuous diffraction tomography data
3D visualization of the reciprocal space reconstructed from continuous diffraction tomography data (micro-ED) collected using the Stela camera in in-situ recording mode. Specimen: Tylenol crystal, diffraction image size: 512 x 512 pixels, exposure per frame: 5 ms, tilt range: ±70°, total acquisition time: 3 s. 3D reconstruction courtesy of Dr. dos Reis, Northwestern University.
Electron energy-loss spectrum imaging is well established as a powerful tool for materials analysis. The wealth of information available beyond simple composition, coupled with high signal collection efficiency in next-generation imaging filters makes this technique particularly advantageous for advanced analysis and mapping.
Customizing the Installed Python Environment
This tutorial walks through how to add script packages to customize the Python environment in the Gatan Microscopy Suite software.
