JMS-T2000GC

JMS-T2000GC

High performance gas chromatograph time-of-flight mass spectrometer.

JEM-ARM300F2

JEM-ARM300F2

A new atomic resolution electron microscope has been released! The "GRAND ARM 2" has been upgraded. This new "GRAND ARM 2" enables observations at ultrahigh spatial resolution with highly sensitive analysis over a wide range of accelerating voltages.

JAM-5200 EBM
CRYO ARM 300 II (JEM-3300)

JEM-3300 (CRYO ARM 300 II) Cryo-Electron Microscope

CRYO ARM is an electron microscope for observing biomolecules such as proteins at cryo temperature. The microscope equips a cold field-emission electron gun, an in-column Omega energy filter, a side-entry liquid nitrogen cooling stage, and an automated specimen exchange system. The specimen exchange system can store up to 12 specimens in the specimen exchange chamber.

Electron Microscopy, NMR & Mass Spectometry News

Electron Microscopy News

Our latest blogs on (Scanning) Electron Microscopes, NMR & Mass Spectometry


Arnold Kruize
Arnold Kruize
Arnold Kruize's Blog

Release of a new Field-Emission Scanning Electron Microscope: The JSM-7200F

JEOL has released the  JSM-7200F, a multi-purpose FE-SEM combining high-resolution and easy operation.

Scanning electron microscopes have been used in a wide range of fields and for diverse applications. The JSM-7200F utilizes JEOL proprietary in-lens Schottky Plus technology that allows improvement in the resolution at low accelerating voltages (1.6 nm @ 1 kV), and achieves a maximum probe current of 300 nA. The JSM-7200F is a multi-purpose FE-SEM that can satisfy a wide range of needs with both higher resolution and easier operation than conventional instruments.The features include:

  1. High resolution of 1.6 nm at 1 kV, 1.2nm at 30kV.
  2. High-speed analysis: maximum probe current of 300 nA, allowing short acquisition time for EDS, WDS, and EBSD, while maintaining high resolution.
  3. Energy signal differentiation: incorporation of the TTL (through-the-lens) system in the standard configuration enables the use of energy filtering to selectively differentiate the electron energies.
  4. Wide area analysis: the LDF (long depth of field) mode enables applications like wide-area EBSD analysis, without the need to use stage scan (montage).



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