Used HITACHI S-9380 II #9245588 for sale
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HITACHI S-9380 II is an advanced scanning electron microscope (SEM) that offers advanced imaging and analytical capabilities to produce superior quality SEM images and comprehensive data analysis. This device is the latest model in HITACHI family of electron microscopes and features specialized software for the observation of organic and inorganic materials at the nanoscale. With its high-sensitivity energy dispersive X-ray detector and advanced X-ray microanalysis unit, it can measure the elemental composition of samples at the atomic level. It is also capable of acquisition of large field of view images at low magnification with its high-level low voltage SEM system. HITACHI S9380 II utilises a thermionic tungsten (W) filament electron source which is designed to produce a stable and low coefficient of axial energy spread. This ensures maximum beam current output and improved image resolution, for better performance and higher-resolution images. In addition, this instrument includes unique 3-D feature analysis for enhanced observation capabilities. This feature allows for a detailed three-dimensional reconstruction of images based on the alignment of multiple angle SEM images of samples. It can also be used in ultra-low vacuum mode, allowing materials to be observed in a close-to-natural environment. S-9380-II is compatible with a range of specimen holders, including motorised holders for easy alignment of a sample and gas injection holders for gaseous samples. It also has a number of advanced detectors, including a backscatter electron detector for better signal-to-noise ratio and energy dispersive X-ray detector for elemental and phase mapping. In conclusion, HITACHI S-9380-II is an advanced scanning electron microscope designed for a wide range of applications. It has powerful imaging and analytical capabilities, and advanced features for enhanced observation and analysis. It is capable of producing high-resolution images and comprehensive data analysis of samples at the nanoscale, and is an invaluable instrument for researchers in fields such as biology, physics or materials science.
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