Used HITACHI HT-7700 #9220326 for sale

HITACHI HT-7700 Scanning Electron Microscope (SEM) is a modern scanning electron microscope offering a high-precision imaging system, resolving power, and image quality. Developed by the Japanese company HITACHI, this model of SEM is equipped with three advanced features: high-resolution imaging, advanced technology for analyzing fine particles, and a wide range of imaging capabilities. HT-7700's primary feature is its high-resolution imaging capabilities, capable of producing images at an astonishing resolution of up to 10 nanometers. This level of precision allows researchers to visualize extremely tiny objects, making this SEM perfect for studying the structure and behavior of nanostructures in microscopic environments. The high level of accuracy also allows for a wide range of sophisticated analysis tools like particle analysis, microchemical analysis, and image analysis. The advanced technology for analyzing fine particles is the second feature of HITACHI HT-7700. By using an energy dispersive X-ray spectrometer (EDS) to analyze samples, HT-7700 can detect particles as small as 20 nanometers in size. This feature enables detailed analyses of the chemical composition and structure of particles, providing extremely detailed information for scientific research. HITACHI HT-7700 also offers a variety of imaging capabilities, allowing researchers to observe extremely small particles in both conventional and scanning electron microscopes. Through the use of specialized techniques such as auto-focus and digital image processing, it is possible to obtain clear images with high contrast even at low magnifications. This feature of HT-7700 SEM makes it perfect for studying microorganisms and other complex nanostructures. HITACHI HT-7700 is a feature-packed scanning electron microscope designed to image nanosamples with unparalleled precision and accuracy. With its high-resolution imaging system, advanced technology for analyzing fine particles, and wide range of imaging capabilities, this model of SEM offers researchers a powerful tool to understand the structure and behavior of nano-sized objects.