EAG Laboratories is pleased to announce the completed installation of a ThermoFisher Scientific Themis Z Transmission Electron Microscope (TEM) at our Silicon Valley facility. This next generation, ultra-high-resolution TEM is the first available in an independent laboratory in North America and is the second Themis Z owned by EAG Laboratories.
The Themis Z is a monochromated, probe-corrected TEM operated in an electron energy range of 30-300 kilovolts. Outside of its pure imaging capabilities, the microscope provides unprecedented access to physical and chemical properties for advanced materials research.
With this technology, EAG scientists can provide our clients with:
This leading edge TEM gives EAG Laboratories’ clients the highest resolution and deeper insights into the materials structure of their devices, which will increase their ability to improve device performance and reduce time to market. The Themis Z complements the company’s existing global microscopy services and strengthens its position as the world leader in advanced microscopy services.
EAG Laboratories is delighted to offer its clients data analysis along with the highest resolution images commercially available from a TEM. The company can now serve its clients in North America, Europe and Asia with these powerful advanced imaging capabilities coupled with its global scientific microscopy staff to solve both the routine and the most challenging materials analysis problems.
Rare earth magnets power some of today’s most advanced technologies. Part 3 of this series explores how the magnets are produced, challenges of maintaining purity at every step, and why precision analysis is essential for building a reliable supply chain.
Join us for an engaging in-person event at our Syracuse/Liverpool, NY lab.
Join us “In the Lab” to learn how investigative analytical chemistry can help solve your product or manufacturing line problems!
Minerology was one of the earliest fields to benefit from X-ray Diffraction (XRD). Prior to XRD, minerals could only be identified by their external symmetry, shape, and color. XRD transformed mineral identification into an exact science, being perfect for characterizing crystalline materials by their internal structure, not just external appearance.
To enable certain features and improve your experience with us, this site stores cookies on your computer. Please click Continue to provide your authorization and permanently remove this message.
To find out more, please see our privacy policy.