Digital zoom ensures clear, detailed images even when viewing at atomic resolution
High-resolution TEM image of silicon nitride (Si3N4).
Instrument: JEM-2100Plus
Accelerating voltage: 200 kV
Digital Zoom enables observation of atomic structure showing quasi-periodicity, such as shown when imaging quasi-crystals.
Moreover, the high dynamic range offers excellent electron diffraction pattern contrast, from the high-intensity direct spot 0 order spot to weaker-intensity reflections.
High-resolution TEM image and electron diffraction pattern of Al72Fe24Ni4 decagonal quasi-crystal.
Specimen courtesy of:
Dr. Kenji Hiraga, Professor Emeritus,
Institute for Materials Research, Tohoku University
Dr. Kunio Yubuta, Specially Appointed Professor,
Institute for Aqua Regeneration, Shinshu University
Upper right triangle shows Log display.
Instrument: JEM-2100Plus,
Accelerating voltage: 200 kV
Fine structures, such as twin textures of polycrystalline silicon, can be observed with high contrast.
TEM images of polycrystalline silicon
DF-TEM
A dark-field image is formed with the indicated diffraction spot.
Instrument: JEM-2100Plus
Accelerating voltage: 200 kV
The MoSi2-Mo5Si3 eutectic structure and MoSi2 and Mo5Si3 lattice images can be clearly observed
TEM images of MoSi2-Mo5Si3 eutectic alloy.
Specimen courtesy of:
Dr. Haruyuki Inui and Dr. Kyosuke Kishida, Professors,
Graduate School of Engineering, Kyoto University
Instrument: JEM-F200,
Accelerating voltage: 200 kV,
Specimen preparation: JIB-PS500i
Digital Zoom enables clear observation of lamella structures
TEM image of polyethylene/polypropylene resin.
Specimen preparation: Microtome,
Instrument: JEM-2100Plus,
Accelerating voltage: 80 kV
Lipid bilayer membranes of liposome can be clearly distinguished.
TEM image of Liposome lipid bilayer membrane.
Sample preparation method: ice embedding
Instrument: JEM-F200Cryo
Accelerating voltage: 200 kV
Fine structures can be imaged with high contrast allowing for accurate clinical diagnosis
The renal glomerulus fine structure can be imaged with high contrast allowing for accurate clinical diagnosis. In particular, important structures in renal biopsy observations, such as the basement membrane and foot processes (arrow), can be clearly imaged at low and high magnification.
TEM image of mouse kidney.
Specimen preparation: Microtome,
Instrument: JEM-120i,
Accelerating voltage: 120 kV
Smart Control with JEOL’s FEMTUS™ Integrated Analysis Platform
The camera system is integrated into JEOL’s FEMTUS™ Integrated Analysis Platform and providing user-friendly operation.